Logo Search packages:      
Sourcecode: qt4-x11 version File versions  Download package

qxmlstream.cpp

/****************************************************************************
**
** Copyright (C) 1992-2008 Trolltech ASA. All rights reserved.
**
** This file is part of the QtXML module of the Qt Toolkit.
**
** This file may be used under the terms of the GNU General Public
** License versions 2.0 or 3.0 as published by the Free Software
** Foundation and appearing in the files LICENSE.GPL2 and LICENSE.GPL3
** included in the packaging of this file.  Alternatively you may (at
** your option) use any later version of the GNU General Public
** License if such license has been publicly approved by Trolltech ASA
** (or its successors, if any) and the KDE Free Qt Foundation. In
** addition, as a special exception, Trolltech gives you certain
** additional rights. These rights are described in the Trolltech GPL
** Exception version 1.1, which can be found at
** http://www.trolltech.com/products/qt/gplexception/ and in the file
** GPL_EXCEPTION.txt in this package.
**
** Please review the following information to ensure GNU General
** Public Licensing requirements will be met:
** http://trolltech.com/products/qt/licenses/licensing/opensource/. If
** you are unsure which license is appropriate for your use, please
** review the following information:
** http://trolltech.com/products/qt/licenses/licensing/licensingoverview
** or contact the sales department at sales@trolltech.com.
**
** In addition, as a special exception, Trolltech, as the sole
** copyright holder for Qt Designer, grants users of the Qt/Eclipse
** Integration plug-in the right for the Qt/Eclipse Integration to
** link to functionality provided by Qt Designer and its related
** libraries.
**
** This file is provided "AS IS" with NO WARRANTY OF ANY KIND,
** INCLUDING THE WARRANTIES OF DESIGN, MERCHANTABILITY AND FITNESS FOR
** A PARTICULAR PURPOSE. Trolltech reserves all rights not expressly
** granted herein.
**
** This file is provided AS IS with NO WARRANTY OF ANY KIND, INCLUDING THE
** WARRANTY OF DESIGN, MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE.
**
****************************************************************************/

#include "qxmlstream.h"
#include "qxmlutils_p.h"
#include <qdebug.h>
#include <QFile>
#include <stdio.h>
#include <qtextcodec.h>
#include <qstack.h>
#include <qbuffer.h>

#include "qxmlstream_p.h"


/*!
    \enum QXmlStreamReader::TokenType

    This enum specifies the type of token the reader just read.

    \value NoToken The reader has not yet read anything.
    \value Invalid An error has occurred, reported in error() and errorString().
    \value StartDocument The reader reports the start of the
    document. If the document is declared standalone,
    isStandaloneDocument() returns true; otherwise it returns false.
    \value EndDocument The reader reports the end of the document.
    \value StartElement The reader reports the start of an element
    with namespaceUri() and name(). Empty elements are also reported
    as StartElement, followed directly by EndElement. The convenience
    function readElementText() can be called to concatenate all
    content until the corresponding EndElement. Attributes are
    reported in attributes(), namespace declarations in
    namespaceDeclarations().
    \value EndElement The reader reports the end of an element with namespaceUri() and name().
    \value Characters The reader reports characters in text(). If the
    characters are all white-space, isWhitespace() returns true. If
    the characters stem from a CDATA section, isCDATA() returns true.
    \value Comment The reader reports a comment in text().
    \value DTD The reader reports a DTD in text(), notation declarations in notationDeclarations().
    \value EntityReference The reader reports an entity reference that could not be resolved.
    The name of the reference is reported in name(), the replacement text in text().
    \value ProcessingInstruction The reader reports a processing instruction
    in processingInstructionTarget() and processingInstructionData().
*/

/*!
    \enum QXmlStreamReader::Error

    This enum specifies different error cases

    \value NoError No error has occurred.
    \value CustomError A custom error has been raised with raiseError()
    \value NotWellFormedError The parser internally raised an error due to the read XML not being well-formed.
    \value PrematureEndOfDocumentError The input stream ended before the document was parsed completely. This error can be recovered from.
    \value UnexpectedElementError The parser encountered an element that was different to those it expected.
*/



/*!
  \class QXmlStreamReader
  \reentrant
  \since 4.3

  \brief The QXmlStreamReader class provides a fast well-formed XML
  parser with a simple streaming API.

  \module XML
  \mainclass
  \ingroup xml-tools

  QXmlStreamReader is a faster and more convenient replacement for
  Qt's own SAX parser (see QXmlSimpleReader), and in some cases also
  for applications that would previously use a DOM tree (see QDomDocument).
  QXmlStreamReader reads data either from a QIODevice (see
  setDevice()), or from a raw QByteArray (see addData()). With
  QXmlStreamWriter, Qt provides a related class for writing XML.

  The basic concept of a stream reader is to report an XML document as
  a stream of tokens, similar to SAX. The main difference between
  QXmlStreamReader and SAX is \e how these XML tokens are
  reported. With SAX, the application must provide handlers that
  receive so-called XML \e events from the parser at the parser's
  convenience. With QXmlStreamReader, the application code itself
  drives the loop and pulls \e tokens from the reader one after
  another as it needs them. This is done by calling readNext(), which
  makes the reader read from the input stream until it has completed a
  new token, and then returns its tokenType().  A set of convenient
  functions like isStartElement() or text() then allows to examine
  this token, and to obtain information about what has been read. The
  big advantage of the pulling approach is the possibility to build
  recursive descent parsers, meaning you can split your XML parsing
  code easily into different methods or classes. This makes it easy to
  keep track of the application's own state when parsing XML.

  A typical loop with QXmlStreamReader looks like this:

  \code
  QXmlStreamReader xml;
  ...
  while (!xml.atEnd()) {
        xml.readNext();
        ... // do processing
  }
  if (xml.hasError()) {
        ... // do error handling
  }
  \endcode


  QXmlStreamReader is a well-formed XML 1.0 parser that does \e not
  include external parsed entities. As long as no error occurs, the
  application code can thus be assured that the data provided by the
  stream reader satisfies the W3C's criteria for well-formed XML. For
  example, you can be certain that all tags are indeed nested and
  closed properly, that references to internal entities have been
  replaced with the correct replacement text, and that attributes have
  been normalized or added according to the internal subset of the
  DTD.

  If an error does occur while parsing, atEnd() returns true and
  error() returns the kind of error that occurred. hasError() can also
  be used to check whether an error has occurred. The functions
  errorString(), lineNumber(), columnNumber(), and characterOffset()
  make it possible to generate a verbose human-understandable error or
  warning message. In order to simplify application code,
  QXmlStreamReader contains a raiseError() mechanism that makes it
  possible to raise custom errors that then trigger the same error
  handling code path.

  The \l{QXmlStream Bookmarks Example} illustrates how to use the
  recursive descent technique with a subclassed stream reader to read
  an XML bookmark file (XBEL).

  \section1 Namespaces

  QXmlStream understands and resolves XML namespaces. E.g. in case of
  a StartElement, namespaceUri() returns the namespace the element is
  in, and name() returns the element's \e local name. The combination
  of namespaceUri and name uniquely identifies an element. If a
  namespace prefix was not declared in the XML entities parsed by the
  reader, the namespaceUri is empty.

  If you parse XML data that does not utilize namespaces according to
  the XML specification or doesn't use namespaces at all, you can use
  the element's qualifiedName() instead. A qualified name is the
  element's \e prefix followed by colon followed by the element's
  local name - exactly like the element appears in the raw XML
  data. Since the mapping namespaceUri to prefix is neither unique nor
  universal, qualifiedName() should be avoided for namespace-compliant
  XML data.

  In order to parse standalone documents that do use undeclared
  namespace prefixes, you can turn off namespace processing completely
  with the \l namespaceProcessing property.

  \section1 Incremental parsing

  QXmlStreamReader is an incremental parser. If you can't parse the
  entire input in one go (for example, it is huge, or is being
  delivered over a network connection), data can be fed to the parser
  in pieces. If the reader runs out of data before the document has
  been parsed completely, it reports a
  PrematureEndOfDocumentError. Once more data has arrived, either
  through the device or because it has been added with addData(), it
  recovers from that error and continues parsing on the next call to
  read().

  For example, if you read data from the network using QHttp, you
  would connect its \l{QHttp::readyRead()}{readyRead()} signal to a
  custom slot. In this slot, you read all available data with
  \l{QHttp::readAll()}{readAll()} and pass it to the XML stream reader
  using addData(). Then you call your custom parsing function that
  reads the XML events from the reader.

  \section1 Performance and memory consumption

  QXmlStreamReader is memory-conservative by design, since it doesn't
  store the entire XML document tree in memory, but only the current
  token at the time it is reported. In addition, QXmlStreamReader
  avoids the many small string allocations that it normally takes to
  map an XML document to a convenient and Qt-ish API. It does this by
  reporting all string data as QStringRef rather than real QString
  objects. QStringRef is a thin wrapper around QString substrings that
  provides a subset of the QString API without the memory allocation
  and reference-counting overhead. Calling
  \l{QStringRef::toString()}{toString()} on any of those objects
  returns an equivalent real QString object.

*/


/*!
  Constructs a stream reader.

  \sa setDevice(), addData()
 */
00238 QXmlStreamReader::QXmlStreamReader()
    : d_ptr(new QXmlStreamReaderPrivate(this))
{
}

/*!  Creates a new stream reader that reads from \a device.

\sa setDevice(), clear()
 */
00247 QXmlStreamReader::QXmlStreamReader(QIODevice *device)
    : d_ptr(new QXmlStreamReaderPrivate(this))
{
    setDevice(device);
}

/*!
  Creates a new stream reader that reads from \a data.

  \sa addData(), clear(), setDevice()
 */
00258 QXmlStreamReader::QXmlStreamReader(const QByteArray &data)
    : d_ptr(new QXmlStreamReaderPrivate(this))
{
    Q_D(QXmlStreamReader);
    d->dataBuffer = data;
}

/*!
  Creates a new stream reader that reads from \a data.

  \sa addData(), clear(), setDevice()
 */
00270 QXmlStreamReader::QXmlStreamReader(const QString &data)
    : d_ptr(new QXmlStreamReaderPrivate(this))
{
    Q_D(QXmlStreamReader);
#ifdef QT_NO_TEXTCODEC
    d->dataBuffer = data.toLatin1();
#else
    d->dataBuffer = d->codec->fromUnicode(data);
    d->decoder = d->codec->makeDecoder();
#endif
    d->lockEncoding = true;

}

/*!
  Creates a new stream reader that reads from \a data.

  \sa addData(), clear(), setDevice()
 */
00289 QXmlStreamReader::QXmlStreamReader(const char *data)
    : d_ptr(new QXmlStreamReaderPrivate(this))
{
    Q_D(QXmlStreamReader);
    d->dataBuffer = QByteArray(data);
}

/*!
  Destructs the reader.
 */
00299 QXmlStreamReader::~QXmlStreamReader()
{
    Q_D(QXmlStreamReader);
    if (d->deleteDevice)
        delete d->device;
    delete d;
}

/*! \fn bool QXmlStreamReader::hasError() const
    Returns \c true if an error has occurred, otherwise \c false.

    \sa errorString(), error()
 */

/*!
    Sets the current device to \a device. Setting the device resets
    the stream to its initial state.

    \sa device(), clear()
*/
00319 void QXmlStreamReader::setDevice(QIODevice *device)
{
    Q_D(QXmlStreamReader);
    if (d->deleteDevice) {
        delete d->device;
        d->deleteDevice = false;
    }
    d->device = device;
    d->init();

}

/*!
    Returns the current device associated with the QXmlStreamReader,
    or 0 if no device has been assigned.

    \sa setDevice()
*/
00337 QIODevice *QXmlStreamReader::device() const
{
    Q_D(const QXmlStreamReader);
    return d->device;
}


/*!
  Adds more \a data for the reader to read.

  This function does nothing if the reader has a device().

  \sa clear()
 */
00351 void QXmlStreamReader::addData(const QByteArray &data)
{
    Q_D(QXmlStreamReader);
    if (d->device) {
        qWarning("QXmlStreamReader: addData() with device()");
        return;
    }
    d->dataBuffer += data;
}

/*!\overload
  Adds more \a data for the reader to read.

  This function does nothing if the reader has a device().

  \sa clear()
 */
00368 void QXmlStreamReader::addData(const QString &data)
{
    Q_D(QXmlStreamReader);
    d->lockEncoding = true;
#ifdef QT_NO_TEXTCODEC
    addData(data.toLatin1());
#else
    addData(d->codec->fromUnicode(data));
#endif
}

/*! \overload
  Adds more \a data for the reader to read.

  This function does nothing if the reader has a device().

  \sa clear()
 */
00386 void QXmlStreamReader::addData(const char *data)
{
    addData(QByteArray(data));
}

/*!
    Removes any device() or data from the reader, and resets its
    state to the initial state.

    \sa addData()
 */
00397 void QXmlStreamReader::clear()
{
    Q_D(QXmlStreamReader);
    d->init();
    if (d->device) {
        if (d->deleteDevice)
            delete d->device;
        d->device = 0;
    }
}


/*!
    Returns true if the reader has read until the end of the XML
    document, or an error has occurred and reading has been aborted;
    otherwise returns false.

    Has reading been aborted with a PrematureEndOfDocumentError
    because the device no longer delivered data, atEnd() will return
    true once more data has arrived.

    \sa device(), QIODevice::atEnd()
 */
00420 bool QXmlStreamReader::atEnd() const
{
    Q_D(const QXmlStreamReader);
    if (d->atEnd
        && ((d->type == QXmlStreamReader::Invalid && d->error == PrematureEndOfDocumentError)
            || (d->type == QXmlStreamReader::EndDocument))) {
        if (d->device)
            return d->device->atEnd();
        else
            return !d->dataBuffer.size();
    }
    return (d->atEnd || d->type == QXmlStreamReader::Invalid);
}


/*!  Reads the next token and returns its type.

  If an error() has been reported, reading is no longer possible. In
  this case, atEnd() always returns true, and this function will do
  nothing but return Invalid.

  The one exception to this rule are errors of type
  PrematureEndOfDocumentError.  Subsequent calls to atEnd() and readNext()
  will resume this error type and try to read from the device
  again. This iterative parsing approach makes sense if you can't or
  don't want to read the entire data in one go, for example, if it is
  huge, or it is being delivered over a network connection

  \sa tokenType(), tokenString()
 */
00450 QXmlStreamReader::TokenType QXmlStreamReader::readNext()
{
    Q_D(QXmlStreamReader);
    if (d->type != Invalid) {
        if (!d->hasCheckedStartDocument)
            if (!d->checkStartDocument())
                return d->type; // synthetic StartDocument or error
        d->parse();
        if (d->atEnd && d->type != EndDocument && d->type != Invalid)
            d->raiseError(PrematureEndOfDocumentError);
        else if (!d->atEnd && d->type == EndDocument)
            d->raiseWellFormedError(QXmlStream::tr("Extra content at end of document."));
    } else if (d->error == PrematureEndOfDocumentError) {
        // resume error
        d->type = NoToken;
        d->atEnd = false;
        d->token = -1;
        return readNext();
    }
    return d->type;
}


/*!
  Returns the type of the current token.

  The current token can also be queried with the convenience functions
  isStartDocument(), isEndDocument(), isStartElement(),
  isEndElement(), isCharacters(), isComment(), isDTD(),
  isEntityReference(), and isProcessingInstruction()

  \sa tokenString()
 */
00483 QXmlStreamReader::TokenType QXmlStreamReader::tokenType() const
{
    Q_D(const QXmlStreamReader);
    return d->type;
}

static const char * QXmlStreamReader_tokenTypeString[] = {
    "NoToken",
    "Invalid",
    "StartDocument",
    "EndDocument",
    "StartElement",
    "EndElement",
    "Characters",
    "Comment",
    "DTD",
    "EntityReference",
    "ProcessingInstruction"
};


/*!
    \property  QXmlStreamReader::namespaceProcessing
    the namespace-processing flag of the stream reader

    This property controls whether or not the stream reader processes
    namespaces. If enabled, the reader processes namespaces, otherwise
    it does not.

    By default, namespace-processing is enabled.
*/


void QXmlStreamReader::setNamespaceProcessing(bool enable)
{
    Q_D(QXmlStreamReader);
    d->namespaceProcessing = enable;
}

bool QXmlStreamReader::namespaceProcessing() const
{
    Q_D(const QXmlStreamReader);
    return d->namespaceProcessing;
}

/*! Returns the reader's current token as string.

\sa tokenType()
*/
00532 QString QXmlStreamReader::tokenString() const
{
    Q_D(const QXmlStreamReader);
    return QLatin1String(QXmlStreamReader_tokenTypeString[d->type]);
}


QXmlStreamPrivateTagStack::QXmlStreamPrivateTagStack()
{
    tagStack.reserve(16);
    tagStackStringStorage.reserve(32);
    tagStackStringStorageSize = 0;
    NamespaceDeclaration &namespaceDeclaration = namespaceDeclarations.push();
    namespaceDeclaration.prefix = addToStringStorage(QLatin1String("xml"));
    namespaceDeclaration.namespaceUri = addToStringStorage(QLatin1String("http://www.w3.org/XML/1998/namespace"));
    tagStackDefaultStringStorageSize = tagStackStringStorageSize;
}

QXmlStreamReaderPrivate::QXmlStreamReaderPrivate(QXmlStreamReader *q)
    :q_ptr(q)
{
    device = 0;
    deleteDevice = false;
#ifndef QT_NO_TEXTCODEC
    decoder = 0;
#endif
    stack_size = 64;
    sym_stack = 0;
    state_stack = 0;
    reallocateStack();
    init();
    entityHash.insert(QLatin1String("lt"), Entity::createLiteral(QLatin1String("<")));
    entityHash.insert(QLatin1String("gt"), Entity::createLiteral(QLatin1String(">")));
    entityHash.insert(QLatin1String("amp"), Entity::createLiteral(QLatin1String("&")));
    entityHash.insert(QLatin1String("apos"), Entity::createLiteral(QLatin1String("'")));
    entityHash.insert(QLatin1String("quot"), Entity::createLiteral(QLatin1String("\"")));
}

void QXmlStreamReaderPrivate::init()
{
    tos = 0;
    scanDtd = false;
    token = -1;
    token_char = 0;
    isEmptyElement = false;
    isWhitespace = false;
    isCDATA = false;
    standalone = false;
    tos = 0;
    resumeReduction = 0;
    state_stack[tos++] = 0;
    state_stack[tos] = 0;
    putStack.clear();
    putStack.reserve(32);
    textBuffer.clear();
    textBuffer.reserve(256);
    initTagStack();
    tagsDone = false;
    attributes.clear();
    attributes.reserve(16);
    lineNumber = lastLineStart = characterOffset = 0;
    readBufferPos = 0;
    nbytesread = 0;
#ifndef QT_NO_TEXTCODEC
    codec = QTextCodec::codecForMib(106); // utf8
    delete decoder;
    decoder = 0;
#endif
    attributeStack.clear();
    attributeStack.reserve(16);
    entityParser = 0;
    hasCheckedStartDocument = false;
    normalizeLiterals = false;
    hasSeenTag = false;
    atEnd = false;
    inParseEntity = false;
    referenceToUnparsedEntityDetected = false;
    referenceToParameterEntityDetected = false;
    hasExternalDtdSubset = false;
    lockEncoding = false;
    namespaceProcessing = true;
    rawReadBuffer.clear();
    dataBuffer.clear();
    readBuffer.clear();

    type = QXmlStreamReader::NoToken;
    error = QXmlStreamReader::NoError;
}

/*
  Well-formed requires that we verify entity values. We do this with a
  standard parser.
 */
void QXmlStreamReaderPrivate::parseEntity(const QString &value)
{
    Q_Q(QXmlStreamReader);

    if (value.isEmpty())
        return;


    if (!entityParser)
        entityParser = new QXmlStreamReaderPrivate(q);
    else
        entityParser->init();
    entityParser->inParseEntity = true;
    entityParser->readBuffer = value;
    entityParser->injectToken(PARSE_ENTITY);
    while (!entityParser->atEnd && entityParser->type != QXmlStreamReader::Invalid)
        entityParser->parse();
    if (entityParser->type == QXmlStreamReader::Invalid || entityParser->tagStack.size())
        raiseWellFormedError(QXmlStream::tr("Invalid entity value."));

}

inline void QXmlStreamReaderPrivate::reallocateStack()
{
    stack_size <<= 1;
    sym_stack = reinterpret_cast<Value*> (qRealloc(sym_stack, stack_size * sizeof(Value)));
    state_stack = reinterpret_cast<int*> (qRealloc(state_stack, stack_size * sizeof(int)));
}


QXmlStreamReaderPrivate::~QXmlStreamReaderPrivate()
{
#ifndef QT_NO_TEXTCODEC
    delete decoder;
#endif
    qFree(sym_stack);
    qFree(state_stack);
    delete entityParser;
}


inline uint QXmlStreamReaderPrivate::filterCarriageReturn()
{
    uint peekc = peekChar();
    if (peekc == '\n') {
        if (putStack.size())
            putStack.pop();
        else
            ++readBufferPos;
        return peekc;
    }
    if (peekc == 0) {
        putChar('\r');
        return 0;
    }
    return '\n';
}

/*!
 \internal
 If the end of the file is encountered, 0 is returned.
 */
inline uint QXmlStreamReaderPrivate::getChar()
{
    uint c;
    if (putStack.size()) {
        c = atEnd ? 0 : putStack.pop();
    } else {
        if (readBufferPos < readBuffer.size())
            c = readBuffer.at(readBufferPos++).unicode();
        else
            c = getChar_helper();
    }

    return c;
}

inline uint QXmlStreamReaderPrivate::peekChar()
{
    uint c;
    if (putStack.size()) {
        c = putStack.top();
    } else if (readBufferPos < readBuffer.size()) {
        c = readBuffer.at(readBufferPos).unicode();
    } else {
        if ((c = getChar_helper()))
            --readBufferPos;
    }

    return c;
}

/*!
  \internal

  Scans characters until \a str is encountered, and validates the characters
  as according to the Char[2] production and do the line-ending normalization.
  If any character is invalid, false is returned, otherwise true upon success.

  If \a tokenToInject is not less than zero, injectToken() is called with
  \a tokenToInject when \a str is found.

  If any error occurred, false is returned, otherwise true.
  */
bool QXmlStreamReaderPrivate::scanUntil(const char *str, short tokenToInject)
{
    int pos = textBuffer.size();
    int oldLineNumber = lineNumber;

    while (uint c = getChar()) {
        /* First, we do the validation & normalization. */
        switch (c) {
        case '\r':
            if ((c = filterCarriageReturn()) == 0)
                break;
            // fall through
        case '\n':
            ++lineNumber;
            lastLineStart = characterOffset + readBufferPos;
            // fall through
        case '\t':
            textBuffer.inline_append(c);
            continue;
        default:
            if(c < 0x20 || (c > 0xFFFD && c < 0x10000) || c > 0x10FFFF ) {
                raiseWellFormedError(QXmlStream::tr("Invalid XML character."));
                lineNumber = oldLineNumber;
                return false;
            }
            textBuffer.inline_append(c);
        }


        /* Second, attempt to lookup str. */
        if (c == uint(*str)) {
            if (!*(str + 1)) {
                if (tokenToInject >= 0)
                    injectToken(tokenToInject);
                return true;
            } else {
                if (scanString(str + 1, tokenToInject, false))
                    return true;
            }
        }
    }
    putString(textBuffer, pos);
    textBuffer.resize(pos);
    lineNumber = oldLineNumber;
    return false;
}

bool QXmlStreamReaderPrivate::scanString(const char *str, short tokenToInject, bool requireSpace)
{
    int n = 0;
    while (str[n]) {
        ushort c = getChar();
        if (c != ushort(str[n])) {
            if (c)
                putChar(c);
            while (n--) {
                putChar(ushort(str[n]));
            }
            return false;
        }
        ++n;
    }
    for (int i = 0; i < n; ++i)
        textBuffer.inline_append(ushort(str[i]));
    if (requireSpace) {
        int s = fastScanSpace();
        if (!s || atEnd) {
            int pos = textBuffer.size() - n - s;
            putString(textBuffer, pos);
            textBuffer.resize(pos);
            return false;
        }
    }
    if (tokenToInject >= 0)
        injectToken(tokenToInject);
    return true;
}

bool QXmlStreamReaderPrivate::scanAfterLangleBang()
{
    switch (peekChar()) {
    case '[':
        return scanString(spell[CDATA_START], CDATA_START, false);
    case 'D':
        return scanString(spell[DOCTYPE], DOCTYPE);
    case 'A':
        return scanString(spell[ATTLIST], ATTLIST);
    case 'N':
        return scanString(spell[NOTATION], NOTATION);
    case 'E':
        if (scanString(spell[ELEMENT], ELEMENT))
            return true;
        return scanString(spell[ENTITY], ENTITY);

    default:
        ;
    };
    return false;
}

bool QXmlStreamReaderPrivate::scanPublicOrSystem()
{
    switch (peekChar()) {
    case 'S':
        return scanString(spell[SYSTEM], SYSTEM);
    case 'P':
        return scanString(spell[PUBLIC], PUBLIC);
    default:
        ;
    }
    return false;
}

bool QXmlStreamReaderPrivate::scanNData()
{
    if (fastScanSpace()) {
        if (scanString(spell[NDATA], NDATA))
            return true;
        putChar(' ');
    }
    return false;
}

bool QXmlStreamReaderPrivate::scanAfterDefaultDecl()
{
    switch (peekChar()) {
    case 'R':
        return scanString(spell[REQUIRED], REQUIRED, false);
    case 'I':
        return scanString(spell[IMPLIED], IMPLIED, false);
    case 'F':
        return scanString(spell[FIXED], FIXED, false);
    default:
        ;
    }
    return false;
}

bool QXmlStreamReaderPrivate::scanAttType()
{
    switch (peekChar()) {
    case 'C':
        return scanString(spell[CDATA], CDATA);
    case 'I':
        if (scanString(spell[ID], ID))
            return true;
        if (scanString(spell[IDREF], IDREF))
            return true;
        return scanString(spell[IDREFS], IDREFS);
    case 'E':
        if (scanString(spell[ENTITY], ENTITY))
            return true;
        return scanString(spell[ENTITIES], ENTITIES);
    case 'N':
        if (scanString(spell[NOTATION], NOTATION))
            return true;
        if (scanString(spell[NMTOKEN], NMTOKEN))
            return true;
        return scanString(spell[NMTOKENS], NMTOKENS);
    default:
        ;
    }
    return false;
}

/*!
 \internal

 Scan strings with quotes or apostrophes surround them. For instance,
 attributes, the version and encoding field in the XML prolog and
 entity declarations.

 If normalizeLiterals is set to true, the function also normalizes
 whitespace. It is set to true when the first start tag is
 encountered.

 */
inline int QXmlStreamReaderPrivate::fastScanLiteralContent()
{
    int n = 0;
    uint c;
    while ((c = getChar())) {
        switch (ushort(c)) {
        case 0xfffe:
        case 0xffff:
        case 0:
            /* The putChar() call is necessary so the parser re-gets
             * the character from the input source, when raising an error. */
            putChar(c);
            return n;
        case '\r':
            if (filterCarriageReturn() == 0)
                return n;
            // fall through
        case '\n':
            ++lineNumber;
            lastLineStart = characterOffset + readBufferPos;
            // fall through
        case ' ':
        case '\t':
            if (normalizeLiterals)
                textBuffer.inline_append(QLatin1Char(' '));
            else
                textBuffer.inline_append(c);
            ++n;
            break;
        case '&':
        case '<':
        case '\"':
        case '\'':
            if (!(c & 0xff0000)) {
                putChar(c);
                return n;
            }
            // fall through
        default:
            textBuffer.inline_append(c);
            ++n;
        }
    }
    return n;
}

inline int QXmlStreamReaderPrivate::fastScanSpace()
{
    int n = 0;
    ushort c;
    while ((c = getChar())) {
        switch (c) {
        case '\r':
            if ((c = filterCarriageReturn()) == 0)
                return n;
            // fall through
        case '\n':
            ++lineNumber;
            lastLineStart = characterOffset + readBufferPos;
            // fall through
        case ' ':
        case '\t':
            textBuffer.inline_append(c);
            ++n;
            break;
        default:
            putChar(c);
            return n;
        }
    }
    return n;
}

/*!
  \internal

  Used for text nodes essentially. That is, characters appearing
  inside elements.
 */
inline int QXmlStreamReaderPrivate::fastScanContentCharList()
{
    int n = 0;
    uint c;
    while ((c = getChar())) {
        switch (ushort(c)) {
        case 0xfffe:
        case 0xffff:
        case 0:
            putChar(c);
            return n;
        case ']': {
            int pos = textBuffer.size();
            textBuffer.inline_append(ushort(c));
            ++n;
            while ((c = getChar()) == ']') {
                textBuffer.inline_append(ushort(c));
                ++n;
            }
            if (c == 0) {
                putString(textBuffer, pos);
                textBuffer.resize(pos);
            } else if (c == '>') {
                raiseWellFormedError(QXmlStream::tr("Sequence ']]>' not allowed in content."));
            } else {
                putChar(c);
                break;
            }
            return n;
        } break;
        case '\r':
            if ((c = filterCarriageReturn()) == 0)
                return n;
            // fall through
        case '\n':
            ++lineNumber;
            lastLineStart = characterOffset + readBufferPos;
            // fall through
        case ' ':
        case '\t':
            textBuffer.inline_append(ushort(c));
            ++n;
            break;
        case '&':
        case '<':
            if (!(c & 0xff0000)) {
                putChar(c);
                return n;
            }
            // fall through
        default:
            if (c < 0x20) {
                putChar(c);
                return n;
            }
            isWhitespace = false;
            textBuffer.inline_append(ushort(c));
            ++n;
        }
    }
    return n;
}

inline int QXmlStreamReaderPrivate::fastScanName(int *prefix)
{
    int n = 0;
    ushort c;
    while ((c = getChar())) {
        switch (c) {
        case '\n':
        case ' ':
        case '\t':
        case '\r':
        case '&':
        case '#':
        case '\'':
        case '\"':
        case '<':
        case '>':
        case '[':
        case ']':
        case '=':
        case '%':
        case '/':
        case ';':
        case '?':
        case '!':
        case '^':
        case '|':
        case ',':
        case '(':
        case ')':
        case '+':
        case '*':
            putChar(c);
            if (prefix && *prefix == n+1) {
                *prefix = 0;
                putChar(':');
                --n;
            }
            return n;
        case ':':
            if (prefix) {
                if (*prefix == 0) {
                    *prefix = n+2;
                } else { // only one colon allowed according to the namespace spec.
                    putChar(c);
                    return n;
                }
            } else {
                putChar(c);
                return n;
            }
            // fall through
        default:
            textBuffer.inline_append(c);
            ++n;
        }
    }

    if (prefix)
        *prefix = 0;
    int pos = textBuffer.size() - n;
    putString(textBuffer, pos);
    textBuffer.resize(pos);
    return 0;
}

enum NameChar { NameBeginning, NameNotBeginning, NotName };

static const char Begi = (char)NameBeginning;
static const char NtBg = (char)NameNotBeginning;
static const char NotN = (char)NotName;

static const char nameCharTable[128] =
{
// 0x00
    NotN, NotN, NotN, NotN, NotN, NotN, NotN, NotN,
    NotN, NotN, NotN, NotN, NotN, NotN, NotN, NotN,
// 0x10
    NotN, NotN, NotN, NotN, NotN, NotN, NotN, NotN,
    NotN, NotN, NotN, NotN, NotN, NotN, NotN, NotN,
// 0x20 (0x2D is '-', 0x2E is '.')
    NotN, NotN, NotN, NotN, NotN, NotN, NotN, NotN,
    NotN, NotN, NotN, NotN, NotN, NtBg, NtBg, NotN,
// 0x30 (0x30..0x39 are '0'..'9', 0x3A is ':')
    NtBg, NtBg, NtBg, NtBg, NtBg, NtBg, NtBg, NtBg,
    NtBg, NtBg, Begi, NotN, NotN, NotN, NotN, NotN,
// 0x40 (0x41..0x5A are 'A'..'Z')
    NotN, Begi, Begi, Begi, Begi, Begi, Begi, Begi,
    Begi, Begi, Begi, Begi, Begi, Begi, Begi, Begi,
// 0x50 (0x5F is '_')
    Begi, Begi, Begi, Begi, Begi, Begi, Begi, Begi,
    Begi, Begi, Begi, NotN, NotN, NotN, NotN, Begi,
// 0x60 (0x61..0x7A are 'a'..'z')
    NotN, Begi, Begi, Begi, Begi, Begi, Begi, Begi,
    Begi, Begi, Begi, Begi, Begi, Begi, Begi, Begi,
// 0x70
    Begi, Begi, Begi, Begi, Begi, Begi, Begi, Begi,
    Begi, Begi, Begi, NotN, NotN, NotN, NotN, NotN
};

static inline NameChar fastDetermineNameChar(QChar ch)
{
    ushort uc = ch.unicode();
    if (!(uc & ~0x7f)) // uc < 128
        return (NameChar)nameCharTable[uc];

    QChar::Category cat = ch.category();
    // ### some these categories might be slightly wrong
    if ((cat >= QChar::Letter_Uppercase && cat <= QChar::Letter_Other)
        || cat == QChar::Number_Letter)
        return NameBeginning;
    if ((cat >= QChar::Number_DecimalDigit && cat <= QChar::Number_Other)
                || (cat >= QChar::Mark_NonSpacing && cat <= QChar::Mark_Enclosing))
        return NameNotBeginning;
    return NotName;
}

inline int QXmlStreamReaderPrivate::fastScanNMTOKEN()
{
    int n = 0;
    uint c;
    while ((c = getChar())) {
        if (fastDetermineNameChar(c) == NotName) {
            putChar(c);
            return n;
        } else {
            ++n;
            textBuffer.inline_append(c);
        }
    }

    int pos = textBuffer.size() - n;
    putString(textBuffer, pos);
    textBuffer.resize(pos);

    return n;
}

bool QXmlStreamReaderPrivate::validateName(const QStringRef &name)
{
    if (fastDetermineNameChar(name.at(0)) != NameBeginning)
        return false;
    for (int i = 1; i < name.size(); ++i)
        if (fastDetermineNameChar(name.at(i)) == NotName)
            return false;
    return true;
}

void QXmlStreamReaderPrivate::putString(const QString &s, int from)
{
    putStack.reserve(s.size());
    for (int i = s.size()-1; i >= from; --i)
        putStack.rawPush() = s.at(i).unicode();
}

void QXmlStreamReaderPrivate::putStringLiteral(const QString &s)
{
    putStack.reserve(s.size());
    for (int i = s.size()-1; i >= 0; --i)
        putStack.rawPush() = ((LETTER << 16) | s.at(i).unicode());
}

void QXmlStreamReaderPrivate::putReplacement(const QString &s)
{
    putStack.reserve(s.size());
    for (int i = s.size()-1; i >= 0; --i) {
        ushort c = s.at(i).unicode();
        if (c == '\n' || c == '\r')
            putStack.rawPush() = ((LETTER << 16) | c);
        else
            putStack.rawPush() = c;
    }
}
void QXmlStreamReaderPrivate::putReplacementInAttributeValue(const QString &s)
{
    putStack.reserve(s.size());
    for (int i = s.size()-1; i >= 0; --i) {
        ushort c = s.at(i).unicode();
        if (c == '&' || c == ';')
            putStack.rawPush() = c;
        else if (c == '\n' || c == '\r')
            putStack.rawPush() = ' ';
        else
            putStack.rawPush() = ((LETTER << 16) | c);
    }
}

ushort QXmlStreamReaderPrivate::getChar_helper()
{
    const int BUFFER_SIZE = 8192;
    characterOffset += readBufferPos;
    readBufferPos = 0;
    readBuffer.resize(0);
#ifndef QT_NO_TEXTCODEC
    if (decoder)
        nbytesread = 0;
#endif
    if (device) {
        rawReadBuffer.resize(BUFFER_SIZE);
        nbytesread += device->read(rawReadBuffer.data() + nbytesread, BUFFER_SIZE - nbytesread);
    } else {
        if (nbytesread)
            rawReadBuffer += dataBuffer;
        else
            rawReadBuffer = dataBuffer;
        nbytesread = rawReadBuffer.size();
        dataBuffer.clear();
    }
    if (!nbytesread) {
        atEnd = true;
        return 0;
    }

#ifndef QT_NO_TEXTCODEC
    if (!decoder) {
        if (nbytesread < 4) { // the 4 is to cover 0xef 0xbb 0xbf plus
                              // one extra for the utf8 codec
            atEnd = true;
            return 0;
        }
        int mib = 106; // UTF-8
        // look for byte order mark
        uchar ch1 = rawReadBuffer.at(0);
        uchar ch2 = rawReadBuffer.at(1);

        if (ch1 == 0xfe && ch2 == 0xff || ch1 == 0xff && ch2 == 0xfe)
            mib = 1015; // UTF-16 with byte order mark
        else if (ch1 == 0x3c && ch2 == 0x00)
            mib = 1014; // UTF-16LE
        else if (ch1 == 0x00 && ch2 == 0x3c)
            mib = 1013; // UTF-16BE
        codec = QTextCodec::codecForMib(mib);
        Q_ASSERT(codec);
        decoder = codec->makeDecoder();
    }

    decoder->toUnicode(&readBuffer, rawReadBuffer.data(), nbytesread);

    if(lockEncoding && decoder->hasFailure()) {
        raiseWellFormedError(QXmlStream::tr("Encountered incorrectly encoded content."));
        readBuffer.clear();
        return 0;
    }
#else
    readBuffer = QString::fromLatin1(rawReadBuffer.data(), nbytesread);
#endif // QT_NO_TEXTCODEC

    readBuffer.reserve(1); // keep capacity when calling resize() next time

    if (readBufferPos < readBuffer.size()) {
        ushort c = readBuffer.at(readBufferPos++).unicode();
        return c;
    }

    atEnd = true;
    return 0;
}

QStringRef QXmlStreamReaderPrivate::namespaceForPrefix(const QStringRef &prefix)
{
     for (int j = namespaceDeclarations.size() - 1; j >= 0; --j) {
         const NamespaceDeclaration &namespaceDeclaration = namespaceDeclarations.at(j);
         if (namespaceDeclaration.prefix == prefix) {
             return namespaceDeclaration.namespaceUri;
         }
     }

#if 1
     if (namespaceProcessing && !prefix.isEmpty())
         raiseWellFormedError(QXmlStream::tr("Namespace prefix '%1' not declared").arg(prefix.toString()));
#endif

     return QStringRef();
}

/*
  uses namespaceForPrefix and builds the attribute vector
 */
void QXmlStreamReaderPrivate::resolveTag()
{
    tagStack.top().namespaceDeclaration.namespaceUri = namespaceUri = namespaceForPrefix(prefix);

    int n = attributeStack.size();

    attributes.resize(n);

    for (int i = 0; i < n; ++i) {
        QXmlStreamAttribute &attribute = attributes[i];
        Attribute &attrib = attributeStack[i];
        QStringRef prefix(symPrefix(attrib.key));
        QStringRef name(symString(attrib.key));
        QStringRef qualifiedName(symName(attrib.key));
        QStringRef value(symString(attrib.value));

        attribute.m_name = QXmlStreamStringRef(name);
        attribute.m_qualifiedName = QXmlStreamStringRef(qualifiedName);
        attribute.m_value = QXmlStreamStringRef(value);

        if (!prefix.isEmpty()) {
            QStringRef attributeNamespaceUri = namespaceForPrefix(prefix);
            attribute.m_namespaceUri = QXmlStreamStringRef(attributeNamespaceUri);
        }

        for (int j = 0; j < i; ++j) {
            if (attributes[j].name() == attribute.name()
                && attributes[j].namespaceUri() == attribute.namespaceUri()
                && (namespaceProcessing || attributes[j].qualifiedName() == attribute.qualifiedName()))
                raiseWellFormedError(QXmlStream::tr("Attribute redefined."));
        }
    }

    for (int a = 0; a < dtdAttributes.size(); ++a) {
        DtdAttribute &dtdAttribute = dtdAttributes[a];
        if (dtdAttribute.defaultValue.isNull() || dtdAttribute.tagName != qualifiedName || dtdAttribute.attributeQualifiedName.isNull())
            continue;
        int i = 0;
        while (i < n && symName(attributeStack[i].key) != dtdAttribute.attributeQualifiedName)
            ++i;
        if (i != n)
            continue;



        QXmlStreamAttribute attribute;
        attribute.m_name = QXmlStreamStringRef(dtdAttribute.attributeName);
        attribute.m_qualifiedName = QXmlStreamStringRef(dtdAttribute.attributeQualifiedName);
        attribute.m_value = QXmlStreamStringRef(dtdAttribute.defaultValue);

        if (!dtdAttribute.attributePrefix.isEmpty()) {
            QStringRef attributeNamespaceUri = namespaceForPrefix(dtdAttribute.attributePrefix);
            attribute.m_namespaceUri = QXmlStreamStringRef(attributeNamespaceUri);
        }
        attribute.m_isDefault = true;
        attributes.append(attribute);
    }

    attributeStack.clear();
}

void QXmlStreamReaderPrivate::resolvePublicNamespaces()
{
    const Tag &tag = tagStack.top();
    int n = namespaceDeclarations.size() - tag.namespaceDeclarationsSize;
    publicNamespaceDeclarations.resize(n);
    for (int i = 0; i < n; ++i) {
        const NamespaceDeclaration &namespaceDeclaration = namespaceDeclarations.at(tag.namespaceDeclarationsSize + i);
        QXmlStreamNamespaceDeclaration &publicNamespaceDeclaration = publicNamespaceDeclarations[i];
        publicNamespaceDeclaration.m_prefix = QXmlStreamStringRef(namespaceDeclaration.prefix);
        publicNamespaceDeclaration.m_namespaceUri = QXmlStreamStringRef(namespaceDeclaration.namespaceUri);
    }
}

void QXmlStreamReaderPrivate::resolveDtd()
{
    publicNotationDeclarations.resize(notationDeclarations.size());
    for (int i = 0; i < notationDeclarations.size(); ++i) {
        const QXmlStreamReaderPrivate::NotationDeclaration &notationDeclaration = notationDeclarations.at(i);
        QXmlStreamNotationDeclaration &publicNotationDeclaration = publicNotationDeclarations[i];
        publicNotationDeclaration.m_name = QXmlStreamStringRef(notationDeclaration.name);
        publicNotationDeclaration.m_systemId = QXmlStreamStringRef(notationDeclaration.systemId);
        publicNotationDeclaration.m_publicId = QXmlStreamStringRef(notationDeclaration.publicId);

    }
    notationDeclarations.clear();
    publicEntityDeclarations.resize(entityDeclarations.size());
    for (int i = 0; i < entityDeclarations.size(); ++i) {
        const QXmlStreamReaderPrivate::EntityDeclaration &entityDeclaration = entityDeclarations.at(i);
        QXmlStreamEntityDeclaration &publicEntityDeclaration = publicEntityDeclarations[i];
        publicEntityDeclaration.m_name = QXmlStreamStringRef(entityDeclaration.name);
        publicEntityDeclaration.m_notationName = QXmlStreamStringRef(entityDeclaration.notationName);
        publicEntityDeclaration.m_systemId = QXmlStreamStringRef(entityDeclaration.systemId);
        publicEntityDeclaration.m_publicId = QXmlStreamStringRef(entityDeclaration.publicId);
        publicEntityDeclaration.m_value = QXmlStreamStringRef(entityDeclaration.value);
    }
    entityDeclarations.clear();
    parameterEntityHash.clear();
}

uint QXmlStreamReaderPrivate::resolveCharRef(int symbolIndex)
{
    bool ok = true;
    uint s;
    // ### add toXShort to QStringRef?
    if (sym(symbolIndex).c == 'x')
        s = symString(symbolIndex, 1).toString().toUInt(&ok, 16);
    else
        s = symString(symbolIndex).toString().toUInt(&ok, 10);

    ok &= (s == 0x9 || s == 0xa || s == 0xd || (s >= 0x20 && s <= 0xd7ff)
           || (s >= 0xe000 && s <= 0xfffd) || (s >= 0x10000 && s <= 0x10ffff));

    return ok ? s : 0;
}


void QXmlStreamReaderPrivate::checkPublicLiteral(const QStringRef &publicId)
{
//#x20 | #xD | #xA | [a-zA-Z0-9] | [-'()+,./:=?;!*#@$_%]

    const ushort *data = reinterpret_cast<const ushort *>(publicId.constData());
    uchar c = 0;
    int i;
    for (i = publicId.size() - 1; i >= 0; --i) {
        if (data[i] < 256)
            switch ((c = data[i])) {
            case ' ': case '\n': case '\r': case '-': case '(': case ')':
            case '+': case ',': case '.': case '/': case ':': case '=':
            case '?': case ';': case '!': case '*': case '#': case '@':
            case '$': case '_': case '%': case '\'': case '\"':
                continue;
            default:
                if ((c >= 'a' && c <= 'z')
                    || (c >= 'A' && c <= 'Z')
                    || (c >= '0' && c <= '9'))
                    continue;
            }
        break;
    }
    if (i >= 0)
        raiseWellFormedError(QXmlStream::tr("Unexpected character '%1' in public id literal.").arg(QChar(QLatin1Char(c))));
}

/*
  Checks whether the document starts with an xml declaration. If it
  does, this function returns true; otherwise it sets up everything
  for a synthetic start document event and returns false.
 */
bool QXmlStreamReaderPrivate::checkStartDocument()
{
    hasCheckedStartDocument = true;

    if (scanString(spell[XML], XML))
        return true;

    type = QXmlStreamReader::StartDocument;
    if (atEnd) {
        hasCheckedStartDocument = false;
        raiseError(QXmlStreamReader::PrematureEndOfDocumentError);
    }
    return false;
}

void QXmlStreamReaderPrivate::startDocument(const QStringRef &version)
{
    QString err;
    if (version != QLatin1String("1.0")) {
        if (version.toString().contains(QLatin1Char(' ')))
            err = QXmlStream::tr("Invalid XML version string.");
        else
            err = QXmlStream::tr("Unsupported XML version.");
    }
    initTagStack();
    int n = attributeStack.size();

    /* We use this bool to ensure that the pesudo attributes are in the
     * proper order:
     *
     * [23]     XMLDecl     ::=     '<?xml' VersionInfo EncodingDecl? SDDecl? S? '?>' */
    bool hasStandalone = false;

    for (int i = 0; err.isNull() && i < n; ++i) {
        Attribute &attrib = attributeStack[i];
        QStringRef prefix(symPrefix(attrib.key));
        QStringRef key(symString(attrib.key));
        QStringRef value(symString(attrib.value));

        if (prefix.isEmpty() && key == QLatin1String("encoding")) {
            const QString name(value.toString());

            if(hasStandalone)
                err = QXmlStream::tr("The standalone pseudo attribute must appear after the encoding.");
            if(!QXmlUtils::isEncName(name))
                err = QXmlStream::tr("%1 is an invalid encoding name.").arg(name);
            else {
#ifdef QT_NO_TEXTCODEC
                readBuffer = QString::fromLatin1(rawReadBuffer.data(), nbytesread);
#else
                QTextCodec *const newCodec = QTextCodec::codecForName(name.toLatin1());
                if (!newCodec)
                    err = QXmlStream::tr("Encoding %1 is unsupported").arg(name);
                else if (newCodec != codec && !lockEncoding) {
                    codec = newCodec;
                    delete decoder;
                    decoder = codec->makeDecoder();
                    decoder->toUnicode(&readBuffer, rawReadBuffer.data(), nbytesread);
                }
#endif // QT_NO_TEXTCODEC
            }
        } else if (prefix.isEmpty() && key == QLatin1String("standalone")) {
            hasStandalone = true;
            if (value == QLatin1String("yes"))
                standalone = true;
            else if (value == QLatin1String("no"))
                standalone = false;
            else
                err = QXmlStream::tr("Standalone accepts only yes or no.");
        } else {
            err = QXmlStream::tr("Invalid attribute in XML declaration.");
        }
    }

    if (!err.isNull())
        raiseWellFormedError(err);
    attributeStack.clear();
}


void QXmlStreamReaderPrivate::raiseError(QXmlStreamReader::Error error, const QString& message)
{
    this->error = error;
    errorString = message;
    if (errorString.isNull()) {
        if (error == QXmlStreamReader::PrematureEndOfDocumentError)
            errorString = QXmlStream::tr("Premature end of document.");
        else if (error == QXmlStreamReader::CustomError)
            errorString = QXmlStream::tr("Invalid document.");
    }

    type = QXmlStreamReader::Invalid;
}

void QXmlStreamReaderPrivate::raiseWellFormedError(const QString &message)
{
    raiseError(QXmlStreamReader::NotWellFormedError, message);
}

void QXmlStreamReaderPrivate::parseError()
{

    if (token == EOF_SYMBOL) {
        raiseError(QXmlStreamReader::PrematureEndOfDocumentError);
        return;
    }
    const int nmax = 4;
    QString error_message;
    int ers = state_stack[tos];
    int nexpected = 0;
    int expected[nmax];
    if (token != ERROR)
        for (int tk = 0; tk < TERMINAL_COUNT; ++tk) {
            int k = t_action(ers, tk);
            if (k <= 0)
                continue;
            if (spell[tk]) {
                if (nexpected < nmax)
                    expected[nexpected++] = tk;
            }
        }

    error_message.clear ();
    if (nexpected && nexpected < nmax) {
        bool first = true;

        for (int s = 0; s < nexpected; ++s) {
            if (first)
                error_message += QXmlStream::tr ("Expected ");
            else if (s == nexpected - 1)
                error_message += QLatin1String (nexpected > 2 ? ", or " : " or ");
            else
                error_message += QLatin1String (", ");

            first = false;
            error_message += QLatin1String("\'");
            error_message += QLatin1String (spell [expected[s]]);
            error_message += QLatin1String("\'");
        }
        error_message += QXmlStream::tr(", but got \'");
        error_message += QLatin1String(spell [token]);
        error_message += QLatin1String("\'");
    } else {
        error_message += QXmlStream::tr("Unexpected \'");
        error_message += QLatin1String(spell [token]);
        error_message += QLatin1String("\'");
    }
    error_message += QLatin1Char('.');

    raiseWellFormedError(error_message);
}

void QXmlStreamReaderPrivate::resume(int rule) {
    resumeReduction = rule;
    if (error == QXmlStreamReader::NoError)
        raiseError(QXmlStreamReader::PrematureEndOfDocumentError);
}

/*! Returns the current line number, starting with 1.

\sa columnNumber(), characterOffset()
 */
01636 qint64 QXmlStreamReader::lineNumber() const
{
    Q_D(const QXmlStreamReader);
    return d->lineNumber + 1; // in public we start with 1
}

/*! Returns the current column number, starting with 0.

\sa lineNumber(), characterOffset()
 */
01646 qint64 QXmlStreamReader::columnNumber() const
{
    Q_D(const QXmlStreamReader);
    return d->characterOffset - d->lastLineStart + d->readBufferPos;
}

/*! Returns the current character offset, starting with 0.

\sa lineNumber(), columnNumber()
*/
01656 qint64 QXmlStreamReader::characterOffset() const
{
    Q_D(const QXmlStreamReader);
    return d->characterOffset + d->readBufferPos;
}


/*!  Returns the text of \l Characters, \l Comment, \l DTD, or
  EntityReference.
 */
01666 QStringRef QXmlStreamReader::text() const
{
    Q_D(const QXmlStreamReader);
    return d->text;
}


/*!  If the state() is \l DTD, this function returns the DTD's
  notation declarations. Otherwise an empty vector is returned.

  The QXmlStreamNotationDeclarations class is defined to be a QVector
  of QXmlStreamNotationDeclaration.
 */
01679 QXmlStreamNotationDeclarations QXmlStreamReader::notationDeclarations() const
{
    Q_D(const QXmlStreamReader);
    if (d->notationDeclarations.size())
        const_cast<QXmlStreamReaderPrivate *>(d)->resolveDtd();
    return d->publicNotationDeclarations;
}


/*!  If the state() is \l DTD, this function returns the DTD's
  unparsed (external) entity declarations. Otherwise an empty vector is returned.

  The QXmlStreamEntityDeclarations class is defined to be a QVector
  of QXmlStreamEntityDeclaration.
 */
01694 QXmlStreamEntityDeclarations QXmlStreamReader::entityDeclarations() const
{
    Q_D(const QXmlStreamReader);
    if (d->entityDeclarations.size())
        const_cast<QXmlStreamReaderPrivate *>(d)->resolveDtd();
    return d->publicEntityDeclarations;
}

/*!  If the state() is \l StartElement, this function returns the
  element's namespace declarations. Otherwise an empty vector is
  returned.

  The QXmlStreamNamespaceDeclaration class is defined to be a QVector
  of QXmlStreamNamespaceDeclaration.
 */
01709 QXmlStreamNamespaceDeclarations QXmlStreamReader::namespaceDeclarations() const
{
    Q_D(const QXmlStreamReader);
    if (d->publicNamespaceDeclarations.isEmpty() && d->type == StartElement)
        const_cast<QXmlStreamReaderPrivate *>(d)->resolvePublicNamespaces();
    return d->publicNamespaceDeclarations;
}


/*!  Convenience function to be called in case a StartElement was
  read. Reads until the corresponding EndElement and returns all text
  in-between. In case of no error, the token after having called this
  function is EndElement.

  The function concatenates text() when it reads either \l Characters
  or EntityReference tokens, but skips ProcessingInstruction and \l
  Comment. In case anything else is read before reaching EndElement,
  the function returns what it read so far and raises an
  UnexpectedElementError. If the current token is not StartElement, an
  empty string is returned.
 */
01730 QString QXmlStreamReader::readElementText()
{
    Q_D(QXmlStreamReader);
    if (isStartElement()) {
        QString result;
        forever {
            switch (readNext()) {
            case Characters:
            case EntityReference:
                result.insert(result.size(), d->text.unicode(), d->text.size());
                break;
            case EndElement:
                return result;
            case ProcessingInstruction:
            case Comment:
                break;
            default:
                if (!d->error)
                    d->raiseError(UnexpectedElementError, QXmlStream::tr("Expected character data."));
                return result;
            }
        }
    }
    return QString();
}

/*!  Raises a custom error with an optional error \a message.

  \sa error(), errorString()
 */
01760 void QXmlStreamReader::raiseError(const QString& message)
{
    Q_D(QXmlStreamReader);
    d->raiseError(CustomError, message);
}

/*!
  Returns the error message that was set with raiseError().

  \sa error(), lineNumber(), columnNumber(), characterOffset()
 */
01771 QString QXmlStreamReader::errorString() const
{
    Q_D(const QXmlStreamReader);
    if (d->type == QXmlStreamReader::Invalid)
        return d->errorString;
    return QString();
}

/*!  Returns the type of the current error, or NoError if no error occurred.

  \sa errorString(), raiseError()
 */
01783 QXmlStreamReader::Error QXmlStreamReader::error() const
{
    Q_D(const QXmlStreamReader);
    if (d->type == QXmlStreamReader::Invalid)
        return d->error;
    return NoError;
}

/*!
  Returns the target of a ProcessingInstruction.
 */
01794 QStringRef QXmlStreamReader::processingInstructionTarget() const
{
    Q_D(const QXmlStreamReader);
    return d->processingInstructionTarget;
}

/*!
  Returns the data of a ProcessingInstruction.
 */
01803 QStringRef QXmlStreamReader::processingInstructionData() const
{
    Q_D(const QXmlStreamReader);
    return d->processingInstructionData;
}



/*!
  Returns the local name of a StartElement, EndElement, or an EntityReference.

  \sa namespaceUri(), qualifiedName()
 */
01816 QStringRef QXmlStreamReader::name() const
{
    Q_D(const QXmlStreamReader);
    return d->name;
}

/*!
  Returns the namespaceUri of a StartElement or EndElement.

  \sa name(), qualifiedName()
 */
01827 QStringRef QXmlStreamReader::namespaceUri() const
{
    Q_D(const QXmlStreamReader);
    return d->namespaceUri;
}

/*!
  Returns the qualified name of a StartElement or EndElement;

  A qualified name is the raw name of an element in the XML data. It
  consists of the namespace prefix, followed by colon, followed by the
  element's local name. Since the namespace prefix is not unique (the
  same prefix can point to different namespaces and different prefixes
  can point to the same namespace), you shouldn't use qualifiedName(),
  but the resolved namespaceUri() and the attribute's local name().

   \sa name(), namespaceUri()
 */
01845 QStringRef QXmlStreamReader::qualifiedName() const
{
    Q_D(const QXmlStreamReader);
    return d->qualifiedName;
}



/*!
  Returns the attributes of a StartElement.
 */
01856 QXmlStreamAttributes QXmlStreamReader::attributes() const
{
    Q_D(const QXmlStreamReader);
    return d->attributes;
}


/*!
    \class QXmlStreamAttribute
    \since 4.3
    \reentrant
    \brief The QXmlStreamAttribute class represents a single XML attribute

    \module XML
    \ingroup xml-tools

    An attribute consists of an optionally empty namespaceUri(), a
    name(), a value(), and an isDefault() attribute.

    The raw XML attribute name is returned as qualifiedName().
*/

/*!
  Creates an empty attribute.
 */
01881 QXmlStreamAttribute::QXmlStreamAttribute()
{
    m_isDefault = false;
}

/*!
  Destructs an attribute.
 */
01889 QXmlStreamAttribute::~QXmlStreamAttribute()
{
}

/*!  Constructs an attribute in the namespace described with \a
  namespaceUri with \a name and value \a value.
 */
01896 QXmlStreamAttribute::QXmlStreamAttribute(const QString &namespaceUri, const QString &name, const QString &value)
{
    m_namespaceUri = QXmlStreamStringRef(QStringRef(&namespaceUri));
    m_name = m_qualifiedName = QXmlStreamStringRef(QStringRef(&name));
    m_value = QXmlStreamStringRef(QStringRef(&value));
    m_namespaceUri = QXmlStreamStringRef(QStringRef(&namespaceUri));
}

/*!
    Constructs an attribute with qualified name \a qualifiedName and value \a value.
 */
01907 QXmlStreamAttribute::QXmlStreamAttribute(const QString &qualifiedName, const QString &value)
{
    int colon = qualifiedName.indexOf(QLatin1Char(':'));
    m_name = QXmlStreamStringRef(QStringRef(&qualifiedName,
                                            colon + 1,
                                            qualifiedName.size() - (colon + 1)));
    m_qualifiedName = QXmlStreamStringRef(QStringRef(&qualifiedName));
    m_value = QXmlStreamStringRef(QStringRef(&value));
}

/*! \fn QStringRef QXmlStreamAttribute::namespaceUri() const

   Returns the attribute's resolved namespaceUri, or an empty string
   reference if the attribute does not have a defined namespace.
 */
/*! \fn QStringRef QXmlStreamAttribute::name() const
   Returns the attribute's local name.
 */
/*! \fn QStringRef QXmlStreamAttribute::qualifiedName() const
   Returns the attribute's qualified name.

   A qualified name is the raw name of an attribute in the XML
   data. It consists of the namespace prefix, followed by colon,
   followed by the attribute's local name. Since the namespace prefix
   is not unique (the same prefix can point to different namespaces
   and different prefixes can point to the same namespace), you
   shouldn't use qualifiedName(), but the resolved namespaceUri() and
   the attribute's local name().
 */
/*! \fn QStringRef QXmlStreamAttribute::value() const
   Returns the attribute's value.
 */

/*! \fn bool QXmlStreamAttribute::isDefault() const

   Returns true if the parser added this attribute with a default
   value following an ATTLIST declaration in the DTD; otherwise
   returns false.
*/
/*! \fn bool QXmlStreamAttribute::operator==(const QXmlStreamAttribute &other) const

    Compares this attribute with \a other and returns true if they are
    equal; otherwise returns false.
 */
/*! \fn bool QXmlStreamAttribute::operator!=(const QXmlStreamAttribute &other) const

    Compares this attribute with \a other and returns true if they are
    not equal; otherwise returns false.
 */


/*!
  Creates a copy of \a other.
 */
01961 QXmlStreamAttribute::QXmlStreamAttribute(const QXmlStreamAttribute &other)
{
    *this = other;
}

/*!
  Assigns \a other to this attribute.
 */
01969 QXmlStreamAttribute& QXmlStreamAttribute::operator=(const QXmlStreamAttribute &other)
{
    m_name = other.m_name;
    m_namespaceUri = other.m_namespaceUri;
    m_qualifiedName = other.m_qualifiedName;
    m_value = other.m_value;
    m_isDefault = other.m_isDefault;
    return *this;
}


/*!
    \class QXmlStreamAttributes
    \since 4.3
    \reentrant
    \brief The QXmlStreamAttributes class represents a vector of QXmlStreamAttribute.

    Attributes are returned by a QXmlStreamReader in
    \l{QXmlStreamReader::attributes()} {attributes()} when the reader
    reports a \l {QXmlStreamReader::StartElement}{start element}. The
    class can also be used with a QXmlStreamWriter as an argument to
    \l {QXmlStreamWriter::writeAttributes()}{writeAttributes()}.

    The convenience function value() loops over the vector and returns
    an attribute value for a given namespaceUri and an attribute's
    name.

    New attributes can be added with append().

    \module XML
    \ingroup xml-tools
*/

/*!
    \fn void QXmlStreamAttributes::append(const QXmlStreamAttribute &attribute)

    Appends the given \a attribute to the end of the vector.

    \sa QVector::append()
*/


/*!
    \typedef QXmlStreamNotationDeclarations
    \relates QXmlStreamNotationDeclaration

    Synonym for QVector<QXmlStreamNotationDeclaration>.
*/


/*!
    \class QXmlStreamNotationDeclaration
    \since 4.3
    \reentrant
    \brief The QXmlStreamNotationDeclaration class represents a DTD notation declaration.

    \module XML
    \ingroup xml-tools

    An notation declaration consists of a name(), a systemId(), and a publicId().
*/

/*!
  Creates an empty notation declaration.
*/
02034 QXmlStreamNotationDeclaration::QXmlStreamNotationDeclaration()
{
}
/*!
  Creates a copy of \a other.
 */
02040 QXmlStreamNotationDeclaration::QXmlStreamNotationDeclaration(const QXmlStreamNotationDeclaration &other)
{
    *this = other;
}

/*!
  Assigns \a other to this notation declaration.
 */
02048 QXmlStreamNotationDeclaration& QXmlStreamNotationDeclaration::operator=(const QXmlStreamNotationDeclaration &other)
{
    m_name = other.m_name;
    m_systemId = other.m_systemId;
    m_publicId = other.m_publicId;
    return *this;
}

/*!
Destructs this notation declaration.
*/
02059 QXmlStreamNotationDeclaration::~QXmlStreamNotationDeclaration()
{
}

/*! \fn QStringRef QXmlStreamNotationDeclaration::name() const

Returns the notation name.
*/
/*! \fn QStringRef QXmlStreamNotationDeclaration::systemId() const

Returns the system identifier.
*/
/*! \fn QStringRef QXmlStreamNotationDeclaration::publicId() const

Returns the public identifier.
*/

/*! \fn inline bool QXmlStreamNotationDeclaration::operator==(const QXmlStreamNotationDeclaration &other) const

    Compares this notation declaration with \a other and returns true
    if they are equal; otherwise returns false.
 */
/*! \fn inline bool QXmlStreamNotationDeclaration::operator!=(const QXmlStreamNotationDeclaration &other) const

    Compares this notation declaration with \a other and returns true
    if they are not equal; otherwise returns false.
 */

/*!
    \typedef QXmlStreamNamespaceDeclarations
    \relates QXmlStreamNamespaceDeclaration

    Synonym for QVector<QXmlStreamNamespaceDeclaration>.
*/

/*!
    \class QXmlStreamNamespaceDeclaration
    \since 4.3
    \reentrant
    \brief The QXmlStreamNamespaceDeclaration class represents a namespace declaration.

    \module XML
    \ingroup xml-tools

    An namespace declaration consists of a prefix() and a namespaceUri().
*/
/*! \fn inline bool QXmlStreamNamespaceDeclaration::operator==(const QXmlStreamNamespaceDeclaration &other) const

    Compares this namespace declaration with \a other and returns true
    if they are equal; otherwise returns false.
 */
/*! \fn inline bool QXmlStreamNamespaceDeclaration::operator!=(const QXmlStreamNamespaceDeclaration &other) const

    Compares this namespace declaration with \a other and returns true
    if they are not equal; otherwise returns false.
 */

/*!
  Creates an empty namespace declaration.
*/
02119 QXmlStreamNamespaceDeclaration::QXmlStreamNamespaceDeclaration()
{
}

/*!
  Creates a copy of \a other.
 */
02126 QXmlStreamNamespaceDeclaration::QXmlStreamNamespaceDeclaration(const QXmlStreamNamespaceDeclaration &other)
{
    *this = other;
}

/*!
  Assigns \a other to this namespace declaration.
 */
02134 QXmlStreamNamespaceDeclaration& QXmlStreamNamespaceDeclaration::operator=(const QXmlStreamNamespaceDeclaration &other)
{
    m_prefix = other.m_prefix;
    m_namespaceUri = other.m_namespaceUri;
    return *this;
}
/*!
Destructs this namespace declaration.
*/
02143 QXmlStreamNamespaceDeclaration::~QXmlStreamNamespaceDeclaration()
{
}

/*! \fn QStringRef QXmlStreamNamespaceDeclaration::prefix() const

Returns the prefix.
*/
/*! \fn QStringRef QXmlStreamNamespaceDeclaration::namespaceUri() const

Returns the namespaceUri.
*/




/*!
    \typedef QXmlStreamEntityDeclarations
    \relates QXmlStreamEntityDeclaration

    Synonym for QVector<QXmlStreamEntityDeclaration>.
*/

/*!
    \class QXmlStreamStringRef
    \since 4.3
    \internal
*/

/*!
    \class QXmlStreamEntityDeclaration
    \since 4.3
    \reentrant
    \brief The QXmlStreamEntityDeclaration class represents a DTD entity declaration.

    \module XML
    \ingroup xml-tools

    An entity declaration consists of a name(), a notationName(), a
    systemId(), a publicId(), and a value().
*/

/*!
  Creates an empty entity declaration.
*/
02188 QXmlStreamEntityDeclaration::QXmlStreamEntityDeclaration()
{
}

/*!
  Creates a copy of \a other.
 */
02195 QXmlStreamEntityDeclaration::QXmlStreamEntityDeclaration(const QXmlStreamEntityDeclaration &other)
{
    *this = other;
}

/*!
  Assigns \a other to this entity declaration.
 */
02203 QXmlStreamEntityDeclaration& QXmlStreamEntityDeclaration::operator=(const QXmlStreamEntityDeclaration &other)
{
    m_name = other.m_name;
    m_notationName = other.m_notationName;
    m_systemId = other.m_systemId;
    m_publicId = other.m_publicId;
    m_value = other.m_value;
    return *this;
}

/*!
  Destructs this entity declaration.
*/
02216 QXmlStreamEntityDeclaration::~QXmlStreamEntityDeclaration()
{
}

/*! \fn QStringRef QXmlStreamEntityDeclaration::name() const

Returns the entity name.
*/
/*! \fn QStringRef QXmlStreamEntityDeclaration::notationName() const

Returns the notation name.
*/
/*! \fn QStringRef QXmlStreamEntityDeclaration::systemId() const

Returns the system identifier.
*/
/*! \fn QStringRef QXmlStreamEntityDeclaration::publicId() const

Returns the public identifier.
*/
/*! \fn QStringRef QXmlStreamEntityDeclaration::value() const

Returns the entity's value.
*/

/*! \fn bool QXmlStreamEntityDeclaration::operator==(const QXmlStreamEntityDeclaration &other) const

    Compares this entity declaration with \a other and returns true if
    they are equal; otherwise returns false.
 */
/*! \fn bool QXmlStreamEntityDeclaration::operator!=(const QXmlStreamEntityDeclaration &other) const

    Compares this entity declaration with \a other and returns true if
    they are not equal; otherwise returns false.
 */

/*!  Returns the value of the attribute \a name in the namespace
  described with \a namespaceUri, or an empty string reference if the
  attribute is not defined. The \a namespaceUri can be empty.
 */
02256 QStringRef QXmlStreamAttributes::value(const QString &namespaceUri, const QString &name) const
{
    for (int i = 0; i < size(); ++i) {
        const QXmlStreamAttribute &attribute = at(i);
        if (attribute.name() == name && attribute.namespaceUri() == namespaceUri)
            return attribute.value();
    }
    return QStringRef();
}

/*!\overload
  Returns the value of the attribute \a name in the namespace
  described with \a namespaceUri, or an empty string reference if the
  attribute is not defined. The \a namespaceUri can be empty.
 */
02271 QStringRef QXmlStreamAttributes::value(const QString &namespaceUri, const QLatin1String &name) const
{
    for (int i = 0; i < size(); ++i) {
        const QXmlStreamAttribute &attribute = at(i);
        if (attribute.name() == name && attribute.namespaceUri() == namespaceUri)
            return attribute.value();
    }
    return QStringRef();
}

/*!\overload
  Returns the value of the attribute \a name in the namespace
  described with \a namespaceUri, or an empty string reference if the
  attribute is not defined. The \a namespaceUri can be empty.
 */
02286 QStringRef QXmlStreamAttributes::value(const QLatin1String &namespaceUri, const QLatin1String &name) const
{
    for (int i = 0; i < size(); ++i) {
        const QXmlStreamAttribute &attribute = at(i);
        if (attribute.name() == name && attribute.namespaceUri() == namespaceUri)
            return attribute.value();
    }
    return QStringRef();
}

/*!\overload

  Returns the value of the attribute with qualified name \a
  qualifiedName , or an empty string reference if the attribute is not
  defined. A qualified name is the raw name of an attribute in the XML
  data. It consists of the namespace prefix, followed by colon,
  followed by the attribute's local name. Since the namespace prefix
  is not unique (the same prefix can point to different namespaces and
  different prefixes can point to the same namespace), you shouldn't
  use qualified names, but a resolved namespaceUri and the attribute's
  local name.
 */
02308 QStringRef QXmlStreamAttributes::value(const QString &qualifiedName) const
{
    for (int i = 0; i < size(); ++i) {
        const QXmlStreamAttribute &attribute = at(i);
        if (attribute.qualifiedName() == qualifiedName)
            return attribute.value();
    }
    return QStringRef();
}

/*!\overload

  Returns the value of the attribute with qualified name \a
  qualifiedName , or an empty string reference if the attribute is not
  defined. A qualified name is the raw name of an attribute in the XML
  data. It consists of the namespace prefix, followed by colon,
  followed by the attribute's local name. Since the namespace prefix
  is not unique (the same prefix can point to different namespaces and
  different prefixes can point to the same namespace), you shouldn't
  use qualified names, but a resolved namespaceUri and the attribute's
  local name.
 */
02330 QStringRef QXmlStreamAttributes::value(const QLatin1String &qualifiedName) const
{
    for (int i = 0; i < size(); ++i) {
        const QXmlStreamAttribute &attribute = at(i);
        if (attribute.qualifiedName() == qualifiedName)
            return attribute.value();
    }
    return QStringRef();
}

/*!Appends a new attribute with \a name in the namespace
  described with \a namespaceUri, and value \a value. The \a
  namespaceUri can be empty.
 */
02344 void QXmlStreamAttributes::append(const QString &namespaceUri, const QString &name, const QString &value)
{
    append(QXmlStreamAttribute(namespaceUri, name, value));
}

/*!\overload
  Appends a new attribute with qualified name \a qualifiedName and
  value \a value.
 */
02353 void QXmlStreamAttributes::append(const QString &qualifiedName, const QString &value)
{
    append(QXmlStreamAttribute(qualifiedName, value));
}



/*! \fn bool QXmlStreamReader::isStartDocument() const
  Returns true if tokenType() equals \l StartDocument; otherwise returns false.
*/
/*! \fn bool QXmlStreamReader::isEndDocument() const
  Returns true if tokenType() equals \l EndDocument; otherwise returns false.
*/
/*! \fn bool QXmlStreamReader::isStartElement() const
  Returns true if tokenType() equals \l StartElement; otherwise returns false.
*/
/*! \fn bool QXmlStreamReader::isEndElement() const
  Returns true if tokenType() equals \l EndElement; otherwise returns false.
*/
/*! \fn bool QXmlStreamReader::isCharacters() const
  Returns true if tokenType() equals \l Characters; otherwise returns false.

  \sa isWhitespace(), isCDATA()
*/
/*! \fn bool QXmlStreamReader::isComment() const
  Returns true if tokenType() equals \l Comment; otherwise returns false.
*/
/*! \fn bool QXmlStreamReader::isDTD() const
  Returns true if tokenType() equals \l DTD; otherwise returns false.
*/
/*! \fn bool QXmlStreamReader::isEntityReference() const
  Returns true if tokenType() equals \l EntityReference; otherwise returns false.
*/
/*! \fn bool QXmlStreamReader::isProcessingInstruction() const
  Returns true if tokenType() equals \l ProcessingInstruction; otherwise returns false.
*/

/*!  Returns true if the reader reports characters that only consist
  of white-space; otherwise returns false.

  \sa isCharacters(), text()
*/
02395 bool QXmlStreamReader::isWhitespace() const
{
    Q_D(const QXmlStreamReader);
    return d->type == QXmlStreamReader::Characters && d->isWhitespace;
}

/*!  Returns true if the reader reports characters that stem from a
  CDATA section; otherwise returns false.

  \sa isCharacters(), text()
*/
02406 bool QXmlStreamReader::isCDATA() const
{
    Q_D(const QXmlStreamReader);
    return d->type == QXmlStreamReader::Characters && d->isCDATA;
}



/*!
  Returns true if this document has been declared standalone in the
  XML declaration; otherwise returns false.

  If no XML declaration has been parsed, this function returns false.
 */
02420 bool QXmlStreamReader::isStandaloneDocument() const
{
    Q_D(const QXmlStreamReader);
    return d->standalone;
}



/*!
  \class QXmlStreamWriter
  \since 4.3
  \reentrant

  \brief The QXmlStreamWriter class provides an XML writer with a
  simple streaming API.

  \module XML
  \mainclass
  \ingroup xml-tools

  QXmlStreamWriter is the pendent to QXmlStreamReader for writing
  XML. Like its related class, it operates on a QIODevice specified
  with setDevice(). The API is simple and straight forward: For every
  XML token or event you want to write, the writer provides a
  specialized function.

  You start a document with writeStartDocument() and end it with
  writeEndDocument(). This will implicitly close all remaining open
  tags.

  Element tags are opened with writeStartElement() followed by
  writeAttribute() or writeAttributes(), element content, and then
  writeEndElement(). A shorter form writeEmptyElement() can be used
  to write empty elements.

  Element content consists of either characters, entity references or
  nested elements. It is written with writeCharacters(), which also
  takes care of escaping all forbidden characters and character
  sequences, writeEntityReference(), or subsequent calls to
  writeStartElement(). A convenience method writeTextElement() can be
  used for writing terminal elements that contain nothing but text.

  QXmlStreamWriter takes care of prefixing namespaces, all you have to
  do is specify the \c namespaceUri when writing elements or
  attributes. If you must conform to certain prefixes, you can force
  the writer to use them by declaring the namespaces manually with
  either writeNamespace() or writeDefaultNamespace(). Alternatively,
  you can bypass the stream writer's namespace support and use
  overloaded methods that take a qualified name instead. The namespace
  \e http://www.w3.org/XML/1998/namespace is implicit and mapped to the
  prefix \e xml.

  The stream writer can automatically format the generated XML data by
  adding line-breaks and indentation to empty sections between
  elements, making the XML data more readable for humans and easier to
  work with for most source code management systems. The
  feature can be turned on with the \l autoFormatting property.

  Other functions are writeCDATA(), writeComment(),
  writeProcessingInstruction(), and writeDTD(). Chaining of XML
  streams is supported with writeCurrentToken().

  By default, QXmlStreamWriter encodes XML in UTF-8. Different
  encodings can be enforced using setCodec().

  The \l{QXmlStream Bookmarks Example} illustrates how to use a
  subclassed stream writer to write an XML bookmark file (XBEL) that
  was previously read in by a QXmlStreamReader.

*/


class QXmlStreamWriterPrivate : public QXmlStreamPrivateTagStack {
    QXmlStreamWriter *q_ptr;
    Q_DECLARE_PUBLIC(QXmlStreamWriter)
public:
    QXmlStreamWriterPrivate(QXmlStreamWriter *q);
    ~QXmlStreamWriterPrivate() {
        if (deleteDevice)
            delete device;
#ifndef QT_NO_TEXTCODEC
        delete encoder;
#endif
    }

    void write(const QStringRef &);
    void write(const QString &);
    void writeEscaped(const QString &, bool escapeWhitespace = false);
    void write(const char *s);
    bool finishStartElement(bool contents = true);
    void writeStartElement(const QString &namespaceUri, const QString &name);
    QIODevice *device;
    QString *stringDevice;
    uint deleteDevice :1;
    uint inStartElement :1;
    uint inEmptyElement :1;
    uint lastWasStartElement :1;
    uint wroteSomething :1;
    uint autoFormatting :1;
    NamespaceDeclaration emptyNamespace;
    int lastNamespaceDeclaration;

#ifndef QT_NO_TEXTCODEC
    QTextCodec *codec;
    QTextEncoder *encoder;
#endif

    NamespaceDeclaration &findNamespace(const QString &namespaceUri, bool writeDeclaration = false, bool noDefault = false);
    void writeNamespaceDeclaration(const NamespaceDeclaration &namespaceDeclaration);

    int namespacePrefixCount;
};


QXmlStreamWriterPrivate::QXmlStreamWriterPrivate(QXmlStreamWriter *q)
{
    q_ptr = q;
    device = 0;
    stringDevice = 0;
    deleteDevice = false;
    initTagStack();
#ifndef QT_NO_TEXTCODEC
    codec = QTextCodec::codecForMib(106); // utf8
    encoder = codec->makeEncoder();
    encoder->fromUnicode(QLatin1String("")); // no byte order mark for utf8
#endif
    inStartElement = inEmptyElement = false;
    wroteSomething = false;
    lastWasStartElement = false;
    lastNamespaceDeclaration = 1;
    autoFormatting = false;
    namespacePrefixCount = 0;
}

void QXmlStreamWriterPrivate::write(const QStringRef &s)
{
    if (device) {
#ifdef QT_NO_TEXTCODEC
        device->write(s.toString().toLatin1(), s.size());
#else
        device->write(encoder->fromUnicode(s.constData(), s.size()));
#endif
    }
    else if (stringDevice)
        s.appendTo(stringDevice);
    else
        qWarning("QXmlStreamWriter: No device");
}

void QXmlStreamWriterPrivate::write(const QString &s)
{
    if (device) {
#ifdef QT_NO_TEXTCODEC
        device->write(s.toLatin1(), s.size());
#else
        device->write(encoder->fromUnicode(s));
#endif
    }
    else if (stringDevice)
        stringDevice->append(s);
    else
        qWarning("QXmlStreamWriter: No device");
}

void QXmlStreamWriterPrivate::writeEscaped(const QString &s, bool escapeWhitespace)
{
    QString escaped;
    escaped.reserve(s.size());
    for ( int i = 0; i < s.size(); ++i ) {
        QChar c = s.at(i);
        if (c.unicode() == '<' )
            escaped.append(QLatin1String("&lt;"));
        else if (c.unicode() == '>' )
            escaped.append(QLatin1String("&gt;"));
        else if (c.unicode() == '&' )
            escaped.append(QLatin1String("&amp;"));
        else if (c.unicode() == '\"' )
            escaped.append(QLatin1String("&quot;"));
        else if (escapeWhitespace && c.isSpace()) {
            if (c.unicode() == '\n')
                escaped.append(QLatin1String("&#10;"));
            else if (c.unicode() == '\r')
                escaped.append(QLatin1String("&#13;"));
            else if (c.unicode() == '\t')
                escaped.append(QLatin1String("&#9;"));
            else
                escaped.inline_append(QLatin1Char(' '));
        } else {
            escaped.inline_append(c);
        }
    }
    if (device) {
#ifdef QT_NO_TEXTCODEC
        device->write(escaped.toLatin1(), escaped.size());
#else
        device->write(encoder->fromUnicode(escaped));
#endif
    }
    else if (stringDevice)
        stringDevice->append(escaped);
    else
        qWarning("QXmlStreamWriter: No device");
}


void QXmlStreamWriterPrivate::write(const char *s)
{
    if (device) {
#ifndef QT_NO_TEXTCODEC
        if (codec->mibEnum() != 106)
            device->write(encoder->fromUnicode(QLatin1String(s)));
        else
#endif
            device->write(s, strlen(s));
    } else if (stringDevice) {
        stringDevice->append(QLatin1String(s));
    } else
        qWarning("QXmlStreamWriter: No device");
}

void QXmlStreamWriterPrivate::writeNamespaceDeclaration(const NamespaceDeclaration &namespaceDeclaration) {
    if (namespaceDeclaration.prefix.isEmpty()) {
        write(" xmlns=\"");
        write(namespaceDeclaration.namespaceUri);
        write("\"");
    } else {
        write(" xmlns:");
        write(namespaceDeclaration.prefix);
        write("=\"");
        write(namespaceDeclaration.namespaceUri);
        write("\"");
    }
}

bool QXmlStreamWriterPrivate::finishStartElement(bool contents)
{
    bool hadSomethingWritten = wroteSomething;
    wroteSomething = contents;
    if (!inStartElement)
        return hadSomethingWritten;

    if (inEmptyElement) {
        write("/>");
        tagStack_pop();
        lastWasStartElement = false;
    } else {
        write(">");
    }
    inStartElement = inEmptyElement = false;
    lastNamespaceDeclaration = namespaceDeclarations.size();
    return hadSomethingWritten;
}

QXmlStreamPrivateTagStack::NamespaceDeclaration &QXmlStreamWriterPrivate::findNamespace(const QString &namespaceUri, bool writeDeclaration, bool noDefault)
{
    for (int j = namespaceDeclarations.size() - 1; j >= 0; --j) {
        NamespaceDeclaration &namespaceDeclaration = namespaceDeclarations[j];
        if (namespaceDeclaration.namespaceUri == namespaceUri) {
            if (!noDefault || !namespaceDeclaration.prefix.isEmpty())
                return namespaceDeclaration;
        }
    }
    if (namespaceUri.isEmpty())
        return emptyNamespace;
    NamespaceDeclaration &namespaceDeclaration = namespaceDeclarations.push();
    if (namespaceUri.isEmpty()) {
        namespaceDeclaration.prefix.clear();
    } else {
        QString s;
        int n = ++namespacePrefixCount;
        forever {
            s = QLatin1String("n") + QString::number(n++);
            int j = namespaceDeclarations.size() - 2;
            while (j >= 0 && namespaceDeclarations.at(j).prefix != s)
                --j;
            if (j < 0)
                break;
      }
        namespaceDeclaration.prefix = addToStringStorage(s);
    }
    namespaceDeclaration.namespaceUri = addToStringStorage(namespaceUri);
    if (writeDeclaration)
        writeNamespaceDeclaration(namespaceDeclaration);
    return namespaceDeclaration;
}

/*!
  Constructs a stream writer.

  \sa setDevice()
 */
02711 QXmlStreamWriter::QXmlStreamWriter()
    : d_ptr(new QXmlStreamWriterPrivate(this))
{
}

/*!
  Constructs a stream writer that writes into \a device;
 */
02719 QXmlStreamWriter::QXmlStreamWriter(QIODevice *device)
    : d_ptr(new QXmlStreamWriterPrivate(this))
{
    Q_D(QXmlStreamWriter);
    d->device = device;
}

/*!  Constructs a stream writer that writes into \a array. This is the
  same as creating an xml writer that operates on a QBuffer device
  which in turn operates on \a array.
 */
02730 QXmlStreamWriter::QXmlStreamWriter(QByteArray *array)
    : d_ptr(new QXmlStreamWriterPrivate(this))
{
    Q_D(QXmlStreamWriter);
    d->device = new QBuffer(array);
    d->device->open(QIODevice::WriteOnly);
    d->deleteDevice = true;
}


/*!  Constructs a stream writer that writes into \a string.
 */
02742 QXmlStreamWriter::QXmlStreamWriter(QString *string)
    : d_ptr(new QXmlStreamWriterPrivate(this))
{
    Q_D(QXmlStreamWriter);
    d->stringDevice = string;
}

/*!
    Destructor.
*/
02752 QXmlStreamWriter::~QXmlStreamWriter()
{
    Q_D(QXmlStreamWriter);
    delete d;
}


/*!
    Sets the current device to \a device. If you want the stream to
    write into a QByteArray, you can create a QBuffer device.

    \sa device()
*/
02765 void QXmlStreamWriter::setDevice(QIODevice *device)
{
    Q_D(QXmlStreamWriter);
    if (device == d->device)
        return;
    d->stringDevice = 0;
    if (d->deleteDevice) {
        delete d->device;
        d->deleteDevice = false;
    }
    d->device = device;
}

/*!
    Returns the current device associated with the QXmlStreamWriter,
    or 0 if no device has been assigned.

    \sa setDevice()
*/
02784 QIODevice *QXmlStreamWriter::device() const
{
    Q_D(const QXmlStreamWriter);
    return d->device;
}


#ifndef QT_NO_TEXTCODEC
/*!
    Sets the codec for this stream to \a codec. The codec is used for
    encoding any data that is written. By default, QXmlStreamWriter
    uses UTF-8.

    \sa codec()
*/
02799 void QXmlStreamWriter::setCodec(QTextCodec *codec)
{
    Q_D(QXmlStreamWriter);
    if (codec) {
        d->codec = codec;
        delete d->encoder;
        d->encoder = codec->makeEncoder();
    }
}

/*!
    Sets the codec for this stream to the QTextCodec for the encoding
    specified by \a codecName. Common values for \c codecName include
    "ISO 8859-1", "UTF-8", and "UTF-16". If the encoding isn't
    recognized, nothing happens.

    \sa QTextCodec::codecForName()
*/
02817 void QXmlStreamWriter::setCodec(const char *codecName)
{
    setCodec(QTextCodec::codecForName(codecName));
}

/*!
    Returns the codec that is currently assigned to the stream.

    \sa setCodec()
*/
02827 QTextCodec *QXmlStreamWriter::codec() const
{
    Q_D(const QXmlStreamWriter);
    return d->codec;
}
#endif // QT_NO_TEXTCODEC

/*!
    \property  QXmlStreamWriter::autoFormatting
    the auto-formatting flag of the stream writer

    This property controls whether or not the stream writer
    automatically formats the generated XML data. If enabled, the
    writer automatically adds line-breaks and indentation to empty
    sections between elements (ignorable whitespace). The main purpose
    of auto-formatting is to split the data into several lines, and to
    increase readability for a human reader.

    By default, auto-formatting is disabled.
*/


void QXmlStreamWriter::setAutoFormatting(bool enable)
{
    Q_D(QXmlStreamWriter);
    d->autoFormatting = enable;
}

bool QXmlStreamWriter::autoFormatting() const
{
    Q_D(const QXmlStreamWriter);
    return d->autoFormatting;
}


/*!
  \overload
  Writes an attribute with \a qualifiedName and \a value.


  This function can only be called after writeStartElement() before
  any content is written, or after writeEmptyElement().
 */
02870 void QXmlStreamWriter::writeAttribute(const QString &qualifiedName, const QString &value)
{
    Q_D(QXmlStreamWriter);
    Q_ASSERT(d->inStartElement);
    Q_ASSERT(qualifiedName.count(QLatin1Char(':')) <= 1);
    d->write(" ");
    d->write(qualifiedName);
    d->write("=\"");
    d->writeEscaped(value, true);
    d->write("\"");
}

/*!  Writes an attribute with \a name and \a value, prefixed for
  the specified \a namespaceUri. If the namespace has not been
  declared yet, QXmlStreamWriter will generate a namespace declaration
  for it.

  This function can only be called after writeStartElement() before
  any content is written, or after writeEmptyElement().
 */
02890 void QXmlStreamWriter::writeAttribute(const QString &namespaceUri, const QString &name, const QString &value)
{
    Q_D(QXmlStreamWriter);
    Q_ASSERT(d->inStartElement);
    Q_ASSERT(!name.contains(QLatin1Char(':')));
    QXmlStreamWriterPrivate::NamespaceDeclaration &namespaceDeclaration = d->findNamespace(namespaceUri, true, true);
    d->write(" ");
    if (!namespaceDeclaration.prefix.isEmpty()) {
        d->write(namespaceDeclaration.prefix);
        d->write(":");
    }
    d->write(name);
    d->write("=\"");
    d->writeEscaped(value, true);
    d->write("\"");
}

/*!
  \overload

  Writes the \a attribute.

  This function can only be called after writeStartElement() before
  any content is written, or after writeEmptyElement().
 */
02915 void QXmlStreamWriter::writeAttribute(const QXmlStreamAttribute& attribute)
{
    if (attribute.namespaceUri().isEmpty())
        writeAttribute(attribute.qualifiedName().toString(),
                       attribute.value().toString());
    else
        writeAttribute(attribute.namespaceUri().toString(),
                       attribute.name().toString(),
                       attribute.value().toString());
}


/*!  Writes the attribute vector \a attributes. If a namespace
  referenced in an attribute not been declared yet, QXmlStreamWriter
  will generate a namespace declaration for it.

  This function can only be called after writeStartElement() before
  any content is written, or after writeEmptyElement().

  \sa writeAttribute(), writeNamespace()
 */
02936 void QXmlStreamWriter::writeAttributes(const QXmlStreamAttributes& attributes)
{
    Q_D(QXmlStreamWriter);
    Q_ASSERT(d->inStartElement);
    Q_UNUSED(d);
    for (int i = 0; i < attributes.size(); ++i)
        writeAttribute(attributes.at(i));
}


/*!  Writes \a text as CDATA section. If \a text contains the
  forbidden character sequence "]]>", it is split into different CDATA
  sections.

  This function mainly exists for completeness. Normally you should
  not need use it, because writeCharacters() automatically escapes all
  non-content characters.
 */
02954 void QXmlStreamWriter::writeCDATA(const QString &text)
{
    Q_D(QXmlStreamWriter);
    d->finishStartElement();
    QString copy(text);
    copy.replace(QLatin1String("]]>"), QLatin1String("]]]]><![CDATA[>"));
    d->write("<![CDATA[");
    d->write(copy);
    d->write("]]>");
}


/*!  Writes \a text. The characters "<", "&", and "\"" are escaped as entity
  references "&lt;", "&amp;, and "&quot;". To avoid the forbidden sequence
  "]]>", ">" is also escaped as "&gt;".

  \sa writeEntityReference()
 */
02972 void QXmlStreamWriter::writeCharacters(const QString &text)
{
    Q_D(QXmlStreamWriter);
    d->finishStartElement();
    d->writeEscaped(text);
}


/*!  Writes \a text as XML comment, where \a text must not contain the
     forbidden sequence "--" or end with "-". Note that XML does not
     provide any way to escape "-" in a comment.
 */
02984 void QXmlStreamWriter::writeComment(const QString &text)
{
    Q_D(QXmlStreamWriter);
    Q_ASSERT(!text.contains(QLatin1String("--")) && !text.endsWith(QLatin1Char('-')));
    d->finishStartElement();
    d->write("<!--");
    d->write(text);
    d->write("-->");
}


/*!  Writes a DTD section. The \a dtd represents the entire
  doctypedecl production from the XML 1.0 specification.
 */
02998 void QXmlStreamWriter::writeDTD(const QString &dtd)
{
    Q_D(QXmlStreamWriter);
    d->finishStartElement();
    if (d->autoFormatting)
        d->write("\n");
    d->write(dtd);
    if (d->autoFormatting)
        d->write("\n");
}



/*!  \overload
  Writes an empty element with qualified name \a qualifiedName.
 */
03014 void QXmlStreamWriter::writeEmptyElement(const QString &qualifiedName)
{
    Q_D(QXmlStreamWriter);
    Q_ASSERT(qualifiedName.count(QLatin1Char(':')) <= 1);
    d->writeStartElement(QString(), qualifiedName);
    d->inEmptyElement = true;
}


/*!  Writes an empty element with \a name, prefixed for the specified
  \a namespaceUri. If the namespace has not been declared,
  QXmlStreamWriter will generate a namespace declaration for it.

  \sa writeNamespace()
 */
03029 void QXmlStreamWriter::writeEmptyElement(const QString &namespaceUri, const QString &name)
{
    Q_D(QXmlStreamWriter);
    Q_ASSERT(!name.contains(QLatin1Char(':')));
    d->writeStartElement(namespaceUri, name);
    d->inEmptyElement = true;
}


/*!\overload
  Writes a text element with \a qualifiedName and \a text.


  This is a convenience function equivalent to:
  \code
        writeStartElement(qualifiedName);
        writeCharacters(text);
        writeEndElement();
  \endcode

*/
03050 void QXmlStreamWriter::writeTextElement(const QString &qualifiedName, const QString &text)
{
    writeStartElement(qualifiedName);
    writeCharacters(text);
    writeEndElement();
}

/*!  Writes a text element with \a name, prefixed for the specified \a
     namespaceUri, and \a text. If the namespace has not been
     declared, QXmlStreamWriter will generate a namespace declaration
     for it.


  This is a convenience function equivalent to:
  \code
        writeStartElement(namespaceUri, name);
        writeCharacters(text);
        writeEndElement();
  \endcode

*/
03071 void QXmlStreamWriter::writeTextElement(const QString &namespaceUri, const QString &name, const QString &text)
{
    writeStartElement(namespaceUri, name);
    writeCharacters(text);
    writeEndElement();
}


/*!
  Closes all remaining open start elements and writes a newline.

  \sa writeStartDocument()
 */
03084 void QXmlStreamWriter::writeEndDocument()
{
    Q_D(QXmlStreamWriter);
    while (d->tagStack.size())
        writeEndElement();
    d->write("\n");
}

/*!
  Closes the previous start element.

  \sa writeStartElement()
 */
03097 void QXmlStreamWriter::writeEndElement()
{
    Q_D(QXmlStreamWriter);
    if (d->tagStack.isEmpty())
        return;
    if (!d->finishStartElement(false) && !d->lastWasStartElement && d->autoFormatting) {
        d->write("\n");
        for (int i = d->tagStack.size() - 1; i > 0; --i)
            d->write("    ");
    }
    if (d->tagStack.isEmpty())
        return;
    d->lastWasStartElement = false;
    QXmlStreamWriterPrivate::Tag &tag = d->tagStack_pop();
    d->lastNamespaceDeclaration = tag.namespaceDeclarationsSize;
    d->write("</");
    if (!tag.namespaceDeclaration.prefix.isEmpty()) {
        d->write(tag.namespaceDeclaration.prefix);
        d->write(":");
    }
    d->write(tag.name);
    d->write(">");
}



/*!
  Writes the entity reference \a name to the stream, as "&\a{name};".
 */
03126 void QXmlStreamWriter::writeEntityReference(const QString &name)
{
    Q_D(QXmlStreamWriter);
    d->finishStartElement();
    d->write("&");
    d->write(name);
    d->write(";");
}


/*!  Writes a namespace declaration for \a namespaceUri with \a
  prefix. If \a prefix is empty, QXmlStreamWriter assigns a unique
  prefix consisting of the letter 'n' followed by a number.

  If writeStartElement() or writeEmptyElement() was called, the
  declaration applies to the current element; otherwise it applies to
  the next child element.

  Note that the prefix \e xml is both predefined and reserved for
  \e http://www.w3.org/XML/1998/namespace, which in turn cannot be
  bound to any other prefix. The prefix \e xmlns and its URI
  \e http://www.w3.org/2000/xmlns/ are used for the namespace mechanism
  itself and thus completely forbidden in declarations.

 */
03151 void QXmlStreamWriter::writeNamespace(const QString &namespaceUri, const QString &prefix)
{
    Q_D(QXmlStreamWriter);
    Q_ASSERT(!namespaceUri.isEmpty());
    Q_ASSERT(prefix != QLatin1String("xmlns"));
    if (prefix.isEmpty()) {
        d->findNamespace(namespaceUri, d->inStartElement);
    } else {
        Q_ASSERT(!(prefix == QLatin1String("xml") ^ namespaceUri == QLatin1String("http://www.w3.org/XML/1998/namespace")));
        Q_ASSERT(namespaceUri != QLatin1String("http://www.w3.org/2000/xmlns/"));
        QXmlStreamWriterPrivate::NamespaceDeclaration &namespaceDeclaration = d->namespaceDeclarations.push();
        namespaceDeclaration.prefix = d->addToStringStorage(prefix);
        namespaceDeclaration.namespaceUri = d->addToStringStorage(namespaceUri);
        if (d->inStartElement)
            d->writeNamespaceDeclaration(namespaceDeclaration);
    }
}


/*! Writes a default namespace declaration for \a namespaceUri.

  If writeStartElement() or writeEmptyElement() was called, the
  declaration applies to the current element; otherwise it applies to
  the next child element.

  Note that the namespaces \e http://www.w3.org/XML/1998/namespace
  (bound to \e xmlns) and \e http://www.w3.org/2000/xmlns/ (bound to
  \e xml) by definition cannot be declared as default.
 */
03180 void QXmlStreamWriter::writeDefaultNamespace(const QString &namespaceUri)
{
    Q_D(QXmlStreamWriter);
    Q_ASSERT(namespaceUri != QLatin1String("http://www.w3.org/XML/1998/namespace"));
    Q_ASSERT(namespaceUri != QLatin1String("http://www.w3.org/2000/xmlns/"));
    QXmlStreamWriterPrivate::NamespaceDeclaration &namespaceDeclaration = d->namespaceDeclarations.push();
    namespaceDeclaration.prefix.clear();
    namespaceDeclaration.namespaceUri = d->addToStringStorage(namespaceUri);
    if (d->inStartElement)
        d->writeNamespaceDeclaration(namespaceDeclaration);
}


/*!
  Writes an XML processing instruction with \a target and \a data,
  where \a data must not contain the sequence "?>".
 */
03197 void QXmlStreamWriter::writeProcessingInstruction(const QString &target, const QString &data)
{
    Q_D(QXmlStreamWriter);
    Q_ASSERT(!data.contains(QLatin1String("?>")));
    d->finishStartElement();
    d->write("<?");
    d->write(target);
    if (!data.isNull()) {
        d->write(" ");
        d->write(data);
    }
    d->write("?>");
}



/*!\overload
  Writes a document start with XML version number "1.0"

  \sa writeEndDocument()
 */
03218 void QXmlStreamWriter::writeStartDocument()
{
    writeStartDocument(QLatin1String("1.0"));
}


/*!
  Writes a document start with the XML version number \a version.

  \sa writeEndDocument()
 */
03229 void QXmlStreamWriter::writeStartDocument(const QString &version)
{
    Q_D(QXmlStreamWriter);
    d->finishStartElement(false);
    d->write("<?xml version=\"");
    d->write(version);
    if (d->device) { // stringDevice does not get any encoding
        d->write("\" encoding=\"");
#ifdef QT_NO_TEXTCODEC
        d->write("iso-8859-1");
#else
        d->write(d->codec->name().constData());
#endif
    }
    d->write("\"?>");
}


/*!\overload

   Writes a start element with \a qualifiedName.

   \sa writeEndElement(), writeEmptyElement()
 */
03253 void QXmlStreamWriter::writeStartElement(const QString &qualifiedName)
{
    Q_D(QXmlStreamWriter);
    Q_ASSERT(qualifiedName.count(QLatin1Char(':')) <= 1);
    d->writeStartElement(QString(), qualifiedName);
}


/*!  Writes a start element with \a name, prefixed for the specified
  \a namespaceUri. If the namespace has not been declared yet,
  QXmlStreamWriter will generate a namespace declaration for it.

  \sa writeNamespace(), writeEndElement(), writeEmptyElement()
 */
03267 void QXmlStreamWriter::writeStartElement(const QString &namespaceUri, const QString &name)
{
    Q_D(QXmlStreamWriter);
    Q_ASSERT(!name.contains(QLatin1Char(':')));
    d->writeStartElement(namespaceUri, name);
}

void QXmlStreamWriterPrivate::writeStartElement(const QString &namespaceUri, const QString &name)
{
    if (!finishStartElement(false) && autoFormatting) {
        write("\n");
        for (int i = tagStack.size(); i > 0; --i)
            write("    ");
    }
    Tag &tag = tagStack_push();
    tag.name = addToStringStorage(name);
    tag.namespaceDeclaration = findNamespace(namespaceUri);
    write("<");
    if (!tag.namespaceDeclaration.prefix.isEmpty()) {
        write(tag.namespaceDeclaration.prefix);
        write(":");
    }
    write(tag.name);
    inStartElement = lastWasStartElement = true;

    for (int i = lastNamespaceDeclaration; i < namespaceDeclarations.size(); ++i)
        writeNamespaceDeclaration(namespaceDeclarations[i]);
    tag.namespaceDeclarationsSize = lastNamespaceDeclaration;
}


/*!  Writes the current state of the \a reader. All possible valid
  states are supported.

  The purpose of this function is to support chained processing of XML data.

  \sa QXmlStreamReader::tokenType()
 */
03305 void QXmlStreamWriter::writeCurrentToken(const QXmlStreamReader &reader)
{
    switch (reader.tokenType()) {
    case QXmlStreamReader::NoToken:
        break;
    case QXmlStreamReader::StartDocument:
        writeStartDocument();
        break;
    case QXmlStreamReader::EndDocument:
        writeEndDocument();
        break;
    case QXmlStreamReader::StartElement: {
        QXmlStreamNamespaceDeclarations namespaceDeclarations = reader.namespaceDeclarations();
        for (int i = 0; i < namespaceDeclarations.size(); ++i) {
            const QXmlStreamNamespaceDeclaration &namespaceDeclaration = namespaceDeclarations.at(i);
            writeNamespace(namespaceDeclaration.namespaceUri().toString(),
                           namespaceDeclaration.prefix().toString());
        }
        writeStartElement(reader.namespaceUri().toString(), reader.name().toString());
        writeAttributes(reader.attributes());
             } break;
    case QXmlStreamReader::EndElement:
        writeEndElement();
        break;
    case QXmlStreamReader::Characters:
        if (reader.isCDATA())
            writeCDATA(reader.text().toString());
        else
            writeCharacters(reader.text().toString());
        break;
    case QXmlStreamReader::Comment:
        writeComment(reader.text().toString());
        break;
    case QXmlStreamReader::DTD:
        writeDTD(reader.text().toString());
        break;
    case QXmlStreamReader::EntityReference:
        writeEntityReference(reader.name().toString());
        break;
    case QXmlStreamReader::ProcessingInstruction:
        writeProcessingInstruction(reader.processingInstructionTarget().toString(),
                                   reader.processingInstructionData().toString());
        break;
    default:
        Q_ASSERT(reader.tokenType() != QXmlStreamReader::Invalid);
        qWarning("QXmlStreamWriter: writeCurrentToken() with invalid state.");
        break;
    }
}

Generated by  Doxygen 1.6.0   Back to index