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qt5base-lts/tests/auto/qxmlstream/tst_qxmlstream.cpp
Jyri Tahtela f9f395c28b Update licenseheader text in source files for qtbase Qt module 
Updated version of LGPL and FDL licenseheaders.
Apply release phase licenseheaders for all source files.

Reviewed-by: Trust Me
2011-05-24 12:34:08 +03:00

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/****************************************************************************
**
** Copyright (C) 2011 Nokia Corporation and/or its subsidiary(-ies).
** All rights reserved.
** Contact: Nokia Corporation (qt-info@nokia.com)
**
** This file is part of the test suite of the Qt Toolkit.
**
** $QT_BEGIN_LICENSE:LGPL$
** GNU Lesser General Public License Usage
** This file may be used under the terms of the GNU Lesser General Public
** License version 2.1 as published by the Free Software Foundation and
** appearing in the file LICENSE.LGPL included in the packaging of this
** file. Please review the following information to ensure the GNU Lesser
** General Public License version 2.1 requirements will be met:
** http://www.gnu.org/licenses/old-licenses/lgpl-2.1.html.
**
** In addition, as a special exception, Nokia gives you certain additional
** rights. These rights are described in the Nokia Qt LGPL Exception
** version 1.1, included in the file LGPL_EXCEPTION.txt in this package.
**
** GNU General Public License Usage
** Alternatively, this file may be used under the terms of the GNU General
** Public License version 3.0 as published by the Free Software Foundation
** and appearing in the file LICENSE.GPL included in the packaging of this
** file. Please review the following information to ensure the GNU General
** Public License version 3.0 requirements will be met:
** http://www.gnu.org/copyleft/gpl.html.
**
** Other Usage
** Alternatively, this file may be used in accordance with the terms and
** conditions contained in a signed written agreement between you and Nokia.
**
**
**
**
**
** $QT_END_LICENSE$
**
****************************************************************************/
#include <QDirIterator>
#include <QEventLoop>
#include <QNetworkAccessManager>
#include <QNetworkReply>
#include <QNetworkRequest>
#include <QtTest/QtTest>
#include <QUrl>
#include <QXmlDefaultHandler>
#include <QXmlStreamReader>
#include "qc14n.h"
//TESTED_CLASS=QXmlStreamReader QXmlStreamWriter
//TESTED_FILES=corelib/xml/stream/qxmlutils.cpp corelib/xml/stream/qxmlstream.cpp corelib/xml/stream/qxmlstream_p.h
#ifdef Q_OS_SYMBIAN
#define SRCDIR ""
#endif
Q_DECLARE_METATYPE(QXmlStreamReader::ReadElementTextBehaviour)
static const char *const catalogFile = SRCDIR "XML-Test-Suite/xmlconf/finalCatalog.xml";
static const int expectedRunCount = 1646;
static const int expectedSkipCount = 532;
static inline int best(int a, int b)
{
if (a < 0)
return b;
if (b < 0)
return a;
return qMin(a, b);
}
static inline int best(int a, int b, int c)
{
if (a < 0)
return best(b, c);
if (b < 0)
return best(a, c);
if (c < 0)
return best(a, b);
return qMin(qMin(a, b), c);
}
/**
* Opens @p filename and returns content produced as per
* xmlconf/xmltest/canonxml.html.
*
* @p docType is the DOCTYPE name that the returned output should
* have, if it doesn't already have one.
*/
static QByteArray makeCanonical(const QString &filename,
const QString &docType,
bool &hasError,
bool testIncremental = false)
{
QFile file(filename);
file.open(QIODevice::ReadOnly);
QXmlStreamReader reader;
QByteArray buffer;
int bufferPos = 0;
if (testIncremental)
buffer = file.readAll();
else
reader.setDevice(&file);
QByteArray outarray;
QXmlStreamWriter writer(&outarray);
forever {
while (!reader.atEnd()) {
reader.readNext();
if (reader.isDTD()) {
if (!reader.notationDeclarations().isEmpty()) {
QString dtd;
QTextStream writeDtd(&dtd);
writeDtd << "<!DOCTYPE ";
writeDtd << docType;
writeDtd << " [";
writeDtd << endl;
QMap<QString, QXmlStreamNotationDeclaration> sortedNotationDeclarations;
foreach (QXmlStreamNotationDeclaration notation, reader.notationDeclarations())
sortedNotationDeclarations.insert(notation.name().toString(), notation);
foreach (QXmlStreamNotationDeclaration notation, sortedNotationDeclarations.values()) {
writeDtd << "<!NOTATION ";
writeDtd << notation.name().toString();
if (notation.publicId().isEmpty()) {
writeDtd << " SYSTEM \'";
writeDtd << notation.systemId().toString();
writeDtd << "\'";
} else {
writeDtd << " PUBLIC \'";
writeDtd << notation.publicId().toString();
writeDtd << "\'";
if (!notation.systemId().isEmpty() ) {
writeDtd << " \'";
writeDtd << notation.systemId().toString();
writeDtd << "\'";
}
}
writeDtd << ">";
writeDtd << endl;
}
writeDtd << "]>";
writeDtd << endl;
writer.writeDTD(dtd);
}
} else if (reader.isStartElement()) {
writer.writeStartElement(reader.namespaceUri().toString(), reader.name().toString());
QMap<QString, QXmlStreamAttribute> sortedAttributes;
foreach(QXmlStreamAttribute attribute, reader.attributes())
sortedAttributes.insert(attribute.name().toString(), attribute);
foreach(QXmlStreamAttribute attribute, sortedAttributes.values())
writer.writeAttribute(attribute);
writer.writeCharacters(QString()); // write empty string to avoid having empty xml tags
} else if (reader.isCharacters()) {
// make canonical
QString text = reader.text().toString();
int i = 0;
int p = 0;
while ((i = best(text.indexOf(QLatin1Char(10), p),
text.indexOf(QLatin1Char(13), p),
text.indexOf(QLatin1Char(9), p))) >= 0) {
writer.writeCharacters(text.mid(p, i - p));
writer.writeEntityReference(QString("#%1").arg(text.at(i).unicode()));
p = i + 1;
}
writer.writeCharacters(text.mid(p));
} else if (reader.isStartDocument() || reader.isEndDocument() || reader.isComment()){
// canonical does not want any of those
} else if (reader.isProcessingInstruction() && reader.processingInstructionData().isEmpty()) {
// for some reason canonical wants a space
writer.writeProcessingInstruction(reader.processingInstructionTarget().toString(), QLatin1String(""));
} else if (!reader.hasError()){
writer.writeCurrentToken(reader);
}
}
if (testIncremental && bufferPos < buffer.size()) {
reader.addData(QByteArray(buffer.data() + (bufferPos++), 1));
} else {
break;
}
}
if (reader.hasError()) {
hasError = true;
outarray += "ERROR:";
outarray += reader.errorString().toLatin1();
}
else
hasError = false;
return outarray;
}
/**
* @short Returns the lexical QName of the document element in
* @p document.
*
* It is assumed that @p document is a well-formed XML document.
*/
static QString documentElement(const QByteArray &document)
{
QXmlStreamReader reader(document);
while(!reader.atEnd())
{
if(reader.isStartElement())
return reader.qualifiedName().toString();
reader.readNext();
}
qFatal("The input %s didn't contain an element", document.constData());
return QString();
}
/**
* @short Loads W3C's XML conformance test suite and runs it on QXmlStreamReader.
*
* Since this suite is fairly large, it runs the tests sequentially in order to not
* have them all loaded into memory at once. In this way, the maximum memory usage stays
* low, which means one can run valgrind on this test. However, the drawback is that
* QTestLib's usual error reporting and testing mechanisms are slightly bypassed.
*
* Part of this code is a manual, ad-hoc implementation of xml:base.
*
* @see <a href="http://www.w3.org/XML/Test/">Extensible
* Markup Language (XML) Conformance Test Suites</a>
*/
class TestSuiteHandler : public QXmlDefaultHandler
{
public:
/**
* The first string is the test ID, the second is
* a description of what went wrong.
*/
typedef QPair<QString, QString> GeneralFailure;
/**
* The string is the test ID.
*/
QStringList successes;
/**
* The first value is the baseline, while the se
*/
class MissedBaseline
{
public:
MissedBaseline(const QString &aId,
const QByteArray &aExpected,
const QByteArray &aOutput) : id(aId),
expected(aExpected),
output(aOutput)
{
if (aId.isEmpty())
qFatal("%s: aId must not be an empty string", Q_FUNC_INFO);
}
QString id;
QByteArray expected;
QByteArray output;
};
QList<GeneralFailure> failures;
QList<MissedBaseline> missedBaselines;
/**
* The count of how many tests that were run.
*/
int runCount;
int skipCount;
/**
* @p baseURI is the the URI of where the catalog file resides.
*/
TestSuiteHandler(const QUrl &baseURI) : runCount(0),
skipCount(0)
{
if (!baseURI.isValid())
qFatal("%s: baseURI must be valid", Q_FUNC_INFO);
m_baseURI.push(baseURI);
}
virtual bool characters(const QString &chars)
{
m_ch = chars;
return true;
}
virtual bool startElement(const QString &,
const QString &,
const QString &,
const QXmlAttributes &atts)
{
m_atts.push(atts);
const int i = atts.index(QLatin1String("xml:base"));
if(i != -1)
m_baseURI.push(m_baseURI.top().resolved(atts.value(i)));
return true;
}
virtual bool endElement(const QString &,
const QString &localName,
const QString &)
{
if(localName == QLatin1String("TEST"))
{
/* We don't want tests for XML 1.1.0, in fact). */
if(m_atts.top().value(QString(), QLatin1String("VERSION")) == QLatin1String("1.1"))
{
++skipCount;
m_atts.pop();
return true;
}
/* We don't want tests that conflict with the namespaces spec. Our parser is a
* namespace-aware parser. */
else if(m_atts.top().value(QString(), QLatin1String("NAMESPACE")) == QLatin1String("no"))
{
++skipCount;
m_atts.pop();
return true;
}
const QString inputFilePath(m_baseURI.top().resolved(m_atts.top().value(QString(), QLatin1String("URI")))
.toLocalFile());
const QString id(m_atts.top().value(QString(), QLatin1String("ID")));
const QString type(m_atts.top().value(QString(), QLatin1String("TYPE")));
QString expectedFilePath;
const int index = m_atts.top().index(QString(), QLatin1String("OUTPUT"));
//qDebug() << "Running test case:" << id;
if(index != -1)
{
expectedFilePath = m_baseURI.top().resolved(m_atts.top().value(QString(),
QLatin1String("OUTPUT"))).toLocalFile();
}
/* testcases.dtd: 'No parser should accept a "not-wf" testcase
* unless it's a nonvalidating parser and the test contains
* external entities that the parser doesn't read.'
*
* We also let this apply to "valid", "invalid" and "error" tests, although
* I'm not fully sure this is correct. */
const QString ents(m_atts.top().value(QString(), QLatin1String("ENTITIES")));
m_atts.pop();
if(ents == QLatin1String("both") ||
ents == QLatin1String("general") ||
ents == QLatin1String("parameter"))
{
++skipCount;
return true;
}
++runCount;
QFile inputFile(inputFilePath);
if(!inputFile.open(QIODevice::ReadOnly))
{
failures.append(qMakePair(id, QString::fromLatin1("Failed to open input file %1").arg(inputFilePath)));
return true;
}
if(type == QLatin1String("not-wf"))
{
if(isWellformed(&inputFile, ParseSinglePass))
{
failures.append(qMakePair(id, QString::fromLatin1("Failed to flag %1 as not well-formed.")
.arg(inputFilePath)));
/* Exit, the incremental test will fail as well, no need to flood the output. */
return true;
}
else
successes.append(id);
if(isWellformed(&inputFile, ParseIncrementally))
{
failures.append(qMakePair(id, QString::fromLatin1("Failed to flag %1 as not well-formed with incremental parsing.")
.arg(inputFilePath)));
}
else
successes.append(id);
return true;
}
QXmlStreamReader reader(&inputFile);
/* See testcases.dtd which reads: 'Nonvalidating parsers
* must also accept "invalid" testcases, but validating ones must reject them.' */
if(type == QLatin1String("invalid") || type == QLatin1String("valid"))
{
QByteArray expected;
QString docType;
/* We only want to compare against a baseline when we have
* one. Some "invalid"-tests, for instance, doesn't have baselines. */
if(!expectedFilePath.isEmpty())
{
QFile expectedFile(expectedFilePath);
if(!expectedFile.open(QIODevice::ReadOnly))
{
failures.append(qMakePair(id, QString::fromLatin1("Failed to open baseline %1").arg(expectedFilePath)));
return true;
}
expected = expectedFile.readAll();
docType = documentElement(expected);
}
else
docType = QLatin1String("dummy");
bool hasError = true;
bool incremental = false;
QByteArray input(makeCanonical(inputFilePath, docType, hasError, incremental));
if (!hasError && !expectedFilePath.isEmpty() && input == expected)
input = makeCanonical(inputFilePath, docType, hasError, (incremental = true));
if(hasError)
failures.append(qMakePair(id, QString::fromLatin1("Failed to parse %1%2")
.arg(incremental?"(incremental run only) ":"")
.arg(inputFilePath)));
if(!expectedFilePath.isEmpty() && input != expected)
{
missedBaselines.append(MissedBaseline(id, expected, input));
return true;
}
else
{
successes.append(id);
return true;
}
}
else if(type == QLatin1String("error"))
{
/* Not yet sure about this one. */
// TODO
return true;
}
else
{
qFatal("The input catalog is invalid.");
return false;
}
}
else if(localName == QLatin1String("TESTCASES") && m_atts.top().index(QLatin1String("xml:base")) != -1)
m_baseURI.pop();
m_atts.pop();
return true;
}
enum ParseMode
{
ParseIncrementally,
ParseSinglePass
};
static bool isWellformed(QIODevice *const inputFile, const ParseMode mode)
{
if (!inputFile)
qFatal("%s: inputFile must be a valid QIODevice pointer", Q_FUNC_INFO);
if (!inputFile->isOpen())
qFatal("%s: inputFile must be opened by the caller", Q_FUNC_INFO);
if (mode != ParseIncrementally && mode != ParseSinglePass)
qFatal("%s: mode must be either ParseIncrementally or ParseSinglePass", Q_FUNC_INFO);
if(mode == ParseIncrementally)
{
QXmlStreamReader reader;
QByteArray buffer;
int bufferPos = 0;
buffer = inputFile->readAll();
while(true)
{
while(!reader.atEnd())
reader.readNext();
if(bufferPos < buffer.size())
{
++bufferPos;
reader.addData(QByteArray(buffer.data() + bufferPos, 1));
}
else
break;
}
return !reader.hasError();
}
else
{
QXmlStreamReader reader;
reader.setDevice(inputFile);
while(!reader.atEnd())
reader.readNext();
return !reader.hasError();
}
}
private:
QStack<QXmlAttributes> m_atts;
QString m_ch;
QStack<QUrl> m_baseURI;
};
class tst_QXmlStream: public QObject
{
Q_OBJECT
public:
tst_QXmlStream() : m_handler(QUrl::fromLocalFile(QLatin1String(catalogFile)))
{
}
private slots:
void initTestCase();
void reportFailures() const;
void reportFailures_data();
void checkBaseline() const;
void checkBaseline_data() const;
void testReader() const;
void testReader_data() const;
void reportSuccess() const;
void reportSuccess_data() const;
void parseXSLTTestSuite() const;
void writerHangs() const;
void writerAutoFormattingWithComments() const;
void writerAutoFormattingWithTabs() const;
void writerAutoFormattingWithProcessingInstructions() const;
void writerAutoEmptyTags() const;
void writeAttributesWithSpace() const;
void addExtraNamespaceDeclarations();
void setEntityResolver();
void readFromQBuffer() const;
void readFromQBufferInvalid() const;
void readNextStartElement() const;
void readElementText() const;
void readElementText_data() const;
void crashInUTF16Codec() const;
void hasAttributeSignature() const;
void hasAttribute() const;
void writeWithCodec() const;
void writeWithUtf8Codec() const;
void writeWithStandalone() const;
void entitiesAndWhitespace_1() const;
void entitiesAndWhitespace_2() const;
void testFalsePrematureError() const;
void garbageInXMLPrologDefaultCodec() const;
void garbageInXMLPrologUTF8Explicitly() const;
void clear() const;
void checkCommentIndentation() const;
void checkCommentIndentation_data() const;
void qtbug9196_crash() const;
void hasError() const;
private:
static QByteArray readFile(const QString &filename);
TestSuiteHandler m_handler;
};
void tst_QXmlStream::initTestCase()
{
QFile file(QString::fromLatin1(catalogFile));
QVERIFY2(file.open(QIODevice::ReadOnly),
qPrintable(QString::fromLatin1("Failed to open the test suite catalog; %1").arg(file.fileName())));
QXmlInputSource source(&file);
QXmlSimpleReader reader;
reader.setContentHandler(&m_handler);
QVERIFY(reader.parse(&source, false));
}
void tst_QXmlStream::reportFailures() const
{
QFETCH(bool, isError);
QFETCH(QString, description);
QVERIFY2(!isError, qPrintable(description));
}
void tst_QXmlStream::reportFailures_data()
{
const int len = m_handler.failures.count();
QTest::addColumn<bool>("isError");
QTest::addColumn<QString>("description");
/* We loop over all our failures(if any!), and output them such
* that they appear in the QTestLib log. */
for(int i = 0; i < len; ++i)
QTest::newRow(m_handler.failures.at(i).first.toLatin1().constData()) << true << m_handler.failures.at(i).second;
/* We need to add at least one column of test data, otherwise QTestLib complains. */
if(len == 0)
QTest::newRow("Whole test suite passed") << false << QString();
/* We compare the test case counts to ensure that we've actually run test cases, that
* the driver hasn't been broken or changed without updating the expected count, and
* similar reasons. */
QCOMPARE(m_handler.runCount, expectedRunCount);
QCOMPARE(m_handler.skipCount, expectedSkipCount);
}
void tst_QXmlStream::checkBaseline() const
{
QFETCH(bool, isError);
QFETCH(QString, expected);
QFETCH(QString, output);
if(isError)
QCOMPARE(output, expected);
}
void tst_QXmlStream::checkBaseline_data() const
{
QTest::addColumn<bool>("isError");
QTest::addColumn<QString>("expected");
QTest::addColumn<QString>("output");
const int len = m_handler.missedBaselines.count();
for(int i = 0; i < len; ++i)
{
const TestSuiteHandler::MissedBaseline &b = m_handler.missedBaselines.at(i);
/* We indeed don't know what encoding the content is in so in some cases fromUtf8
* is all wrong, but it's an acceptable guess for error reporting. */
QTest::newRow(b.id.toLatin1().constData())
<< true
<< QString::fromUtf8(b.expected.constData())
<< QString::fromUtf8(b.output.constData());
}
if(len == 0)
QTest::newRow("dummy") << false << QString() << QString();
}
void tst_QXmlStream::reportSuccess() const
{
QFETCH(bool, isError);
QVERIFY(!isError);
}
void tst_QXmlStream::reportSuccess_data() const
{
QTest::addColumn<bool>("isError");
const int len = m_handler.successes.count();
for(int i = 0; i < len; ++i)
QTest::newRow(m_handler.successes.at(i).toLatin1().constData()) << false;
if(len == 0)
QTest::newRow("No test cases succeeded.") << true;
}
QByteArray tst_QXmlStream::readFile(const QString &filename)
{
QFile file(filename);
file.open(QIODevice::ReadOnly);
QXmlStreamReader reader;
reader.setDevice(&file);
QByteArray outarray;
QTextStream writer(&outarray);
// We always want UTF-8, and not what the system picks up.
writer.setCodec("UTF-8");
while (!reader.atEnd()) {
reader.readNext();
writer << reader.tokenString() << "(";
if (reader.isWhitespace())
writer << " whitespace";
if (reader.isCDATA())
writer << " CDATA";
if (reader.isStartDocument() && reader.isStandaloneDocument())
writer << " standalone";
if (!reader.text().isEmpty())
writer << " text=\"" << reader.text().toString() << "\"";
if (!reader.processingInstructionTarget().isEmpty())
writer << " processingInstructionTarget=\"" << reader.processingInstructionTarget().toString() << "\"";
if (!reader.processingInstructionData().isEmpty())
writer << " processingInstructionData=\"" << reader.processingInstructionData().toString() << "\"";
if (!reader.dtdName().isEmpty())
writer << " dtdName=\"" << reader.dtdName().toString() << "\"";
if (!reader.dtdPublicId().isEmpty())
writer << " dtdPublicId=\"" << reader.dtdPublicId().toString() << "\"";
if (!reader.dtdSystemId().isEmpty())
writer << " dtdSystemId=\"" << reader.dtdSystemId().toString() << "\"";
if (!reader.documentVersion().isEmpty())
writer << " documentVersion=\"" << reader.documentVersion().toString() << "\"";
if (!reader.documentEncoding().isEmpty())
writer << " documentEncoding=\"" << reader.documentEncoding().toString() << "\"";
if (!reader.name().isEmpty())
writer << " name=\"" << reader.name().toString() << "\"";
if (!reader.namespaceUri().isEmpty())
writer << " namespaceUri=\"" << reader.namespaceUri().toString() << "\"";
if (!reader.qualifiedName().isEmpty())
writer << " qualifiedName=\"" << reader.qualifiedName().toString() << "\"";
if (!reader.prefix().isEmpty())
writer << " prefix=\"" << reader.prefix().toString() << "\"";
if (reader.attributes().size()) {
foreach(QXmlStreamAttribute attribute, reader.attributes()) {
writer << endl << " Attribute(";
if (!attribute.name().isEmpty())
writer << " name=\"" << attribute.name().toString() << "\"";
if (!attribute.namespaceUri().isEmpty())
writer << " namespaceUri=\"" << attribute.namespaceUri().toString() << "\"";
if (!attribute.qualifiedName().isEmpty())
writer << " qualifiedName=\"" << attribute.qualifiedName().toString() << "\"";
if (!attribute.prefix().isEmpty())
writer << " prefix=\"" << attribute.prefix().toString() << "\"";
if (!attribute.value().isEmpty())
writer << " value=\"" << attribute.value().toString() << "\"";
writer << " )" << endl;
}
}
if (reader.namespaceDeclarations().size()) {
foreach(QXmlStreamNamespaceDeclaration namespaceDeclaration, reader.namespaceDeclarations()) {
writer << endl << " NamespaceDeclaration(";
if (!namespaceDeclaration.prefix().isEmpty())
writer << " prefix=\"" << namespaceDeclaration.prefix().toString() << "\"";
if (!namespaceDeclaration.namespaceUri().isEmpty())
writer << " namespaceUri=\"" << namespaceDeclaration.namespaceUri().toString() << "\"";
writer << " )" << endl;
}
}
if (reader.notationDeclarations().size()) {
foreach(QXmlStreamNotationDeclaration notationDeclaration, reader.notationDeclarations()) {
writer << endl << " NotationDeclaration(";
if (!notationDeclaration.name().isEmpty())
writer << " name=\"" << notationDeclaration.name().toString() << "\"";
if (!notationDeclaration.systemId().isEmpty())
writer << " systemId=\"" << notationDeclaration.systemId().toString() << "\"";
if (!notationDeclaration.publicId().isEmpty())
writer << " publicId=\"" << notationDeclaration.publicId().toString() << "\"";
writer << " )" << endl;
}
}
if (reader.entityDeclarations().size()) {
foreach(QXmlStreamEntityDeclaration entityDeclaration, reader.entityDeclarations()) {
writer << endl << " EntityDeclaration(";
if (!entityDeclaration.name().isEmpty())
writer << " name=\"" << entityDeclaration.name().toString() << "\"";
if (!entityDeclaration.notationName().isEmpty())
writer << " notationName=\"" << entityDeclaration.notationName().toString() << "\"";
if (!entityDeclaration.systemId().isEmpty())
writer << " systemId=\"" << entityDeclaration.systemId().toString() << "\"";
if (!entityDeclaration.publicId().isEmpty())
writer << " publicId=\"" << entityDeclaration.publicId().toString() << "\"";
if (!entityDeclaration.value().isEmpty())
writer << " value=\"" << entityDeclaration.value().toString() << "\"";
writer << " )" << endl;
}
}
writer << " )" << endl;
}
if (reader.hasError())
writer << "ERROR: " << reader.errorString() << endl;
return outarray;
}
void tst_QXmlStream::testReader() const
{
QFETCH(QString, xml);
QFETCH(QString, ref);
QFile file(ref);
if (!file.exists()) {
QByteArray reference = readFile(xml);
QVERIFY(file.open(QIODevice::WriteOnly));
file.write(reference);
file.close();
} else {
QVERIFY(file.open(QIODevice::ReadOnly | QIODevice::Text));
QString reference = QString::fromUtf8(file.readAll());
QString qxmlstream = QString::fromUtf8(readFile(xml));
QCOMPARE(qxmlstream, reference);
}
}
void tst_QXmlStream::testReader_data() const
{
QTest::addColumn<QString>("xml");
QTest::addColumn<QString>("ref");
QDir dir;
dir.cd(SRCDIR "data/");
foreach(QString filename , dir.entryList(QStringList() << "*.xml")) {
QString reference = QFileInfo(filename).baseName() + ".ref";
QTest::newRow(dir.filePath(filename).toLatin1().data()) << dir.filePath(filename) << dir.filePath(reference);
}
}
void tst_QXmlStream::parseXSLTTestSuite() const
{
/* We disable this test for now, so it doesn't show up as an XFAIL. */
#if 0
QEXPECT_FAIL("", "Two problems needs to be solved in order to enable this test: \n"
"* The XSLT suite is 69 MB large, which is quite a lot compared to the existing XML suite on 2 mb.\n"
"* We need a c14n-like implementation in order to compare the outputs.", Abort);
QVERIFY(false);
/* We don't yet know this. TODO */
int xsltExpectedRunCount = -1;
QStringList nameFilters;
nameFilters.append("*.xsl");
nameFilters.append("*.xml");
QDirIterator dirIterator("XSLT-Test-Suite/", nameFilters,
QDir::AllEntries, QDirIterator::Subdirectories);
int filesParsed = 0;
while(dirIterator.hasNext())
{
dirIterator.next();
const QString fp(dirIterator.filePath());
qDebug() << "Found" << fp;
QFile inputFile(fp);
QVERIFY(inputFile.open(QIODevice::ReadOnly));
/* Read in and write out to the QByteArray. */
QByteArray outputArray;
{
QXmlStreamReader reader(&inputFile);
QXmlStreamWriter writer(&outputArray);
while(!reader.atEnd())
{
writer.writeCurrentToken(reader);
reader.readNext();
QVERIFY2(!reader.hasError(), qPrintable(reader.errorString()));
}
/* Might be we got an error here, but we don't care. */
}
/* Read in the two files, and compare them. */
{
QBuffer outputBuffer(&outputArray);
outputBuffer.open(QIODevice::ReadOnly);
inputFile.close();
inputFile.open(QIODevice::ReadOnly);
QString message;
const bool isEqual = QC14N::isEqual(&inputFile, &outputBuffer, &message);
QVERIFY2(isEqual, message.toLatin1().constData());
++filesParsed;
}
}
QCOMPARE(xsltExpectedRunCount, filesParsed);
#endif
}
void tst_QXmlStream::addExtraNamespaceDeclarations()
{
const char *data = "<bla><undeclared:foo/><undeclared_too:foo/></bla>";
{
QXmlStreamReader xml(data);
while (!xml.atEnd()) {
xml.readNext();
}
QVERIFY2(xml.hasError(), "namespaces undeclared");
}
{
QXmlStreamReader xml(data);
xml.addExtraNamespaceDeclaration(QXmlStreamNamespaceDeclaration("undeclared", "blabla"));
xml.addExtraNamespaceDeclaration(QXmlStreamNamespaceDeclaration("undeclared_too", "foofoo"));
while (!xml.atEnd()) {
xml.readNext();
}
QVERIFY2(!xml.hasError(), xml.errorString().toLatin1().constData());
}
}
class EntityResolver : public QXmlStreamEntityResolver {
public:
QString resolveUndeclaredEntity(const QString &name) {
static int count = 0;
return name.toUpper() + QString::number(++count);
}
};
void tst_QXmlStream::setEntityResolver()
{
const char *data = "<bla foo=\"&undeclared;\">&undeclared_too;</bla>";
{
QXmlStreamReader xml(data);
while (!xml.atEnd()) {
xml.readNext();
}
QVERIFY2(xml.hasError(), "undeclared entities");
}
{
QString foo;
QString bla_text;
QXmlStreamReader xml(data);
EntityResolver resolver;
xml.setEntityResolver(&resolver);
while (!xml.atEnd()) {
xml.readNext();
if (xml.isStartElement())
foo = xml.attributes().value("foo").toString();
if (xml.isCharacters())
bla_text += xml.text().toString();
}
QVERIFY2(!xml.hasError(), xml.errorString().toLatin1().constData());
QCOMPARE(foo, QLatin1String("UNDECLARED1"));
QCOMPARE(bla_text, QLatin1String("UNDECLARED_TOO2"));
}
}
void tst_QXmlStream::testFalsePrematureError() const // task 179320
{
const char *illegal_start = "illegal<sta";
const char *legal_start = "<sta";
const char* end = "rt/>";
{
QXmlStreamReader xml("");
while (!xml.atEnd()) {
xml.readNext();
}
QVERIFY(xml.error() == QXmlStreamReader::PrematureEndOfDocumentError);
QCOMPARE(xml.errorString(), QLatin1String("Premature end of document."));
xml.addData(legal_start);
while (!xml.atEnd()) {
xml.readNext();
}
QVERIFY(xml.error() == QXmlStreamReader::PrematureEndOfDocumentError);
QCOMPARE(xml.errorString(), QLatin1String("Premature end of document."));
xml.addData(end);
while (!xml.atEnd()) {
xml.readNext();
}
QVERIFY(!xml.hasError());
}
{
QXmlStreamReader xml(illegal_start);
while (!xml.atEnd()) {
xml.readNext();
}
QVERIFY(xml.hasError());
QCOMPARE(xml.errorString(), QLatin1String("Start tag expected."));
QVERIFY(xml.error() == QXmlStreamReader::NotWellFormedError);
}
}
/*!
See task 188737. Crash due to using empty QStack.
*/
void tst_QXmlStream::writerHangs() const
{
QFile file("test.xml");
QVERIFY(file.open(QIODevice::WriteOnly));
QXmlStreamWriter writer(&file);
double radius = 4.0;
writer.setAutoFormatting(true);
writer.writeStartDocument();
writer.writeEmptyElement("circle");
writer.writeAttribute("radius", QString::number(radius));
writer.writeEndElement();
writer.writeEndDocument();
}
/*!
Task 189611
*/
void tst_QXmlStream::writerAutoFormattingWithComments() const
{
QBuffer buffer;
buffer.open(QIODevice::WriteOnly);
QXmlStreamWriter writer(&buffer);
writer.setAutoFormatting(true);
writer.writeStartDocument();
writer.writeComment("This is a comment");
writer.writeEndDocument();
const char *str = "<?xml version=\"1.0\" encoding=\"UTF-8\"?>\n<!--This is a comment-->\n";
QCOMPARE(buffer.buffer().data(), str);
}
/*!
Task 206782
*/
void tst_QXmlStream::writerAutoFormattingWithTabs() const
{
QBuffer buffer;
buffer.open(QIODevice::WriteOnly);
QXmlStreamWriter writer(&buffer);
writer.setAutoFormatting(true);
writer.setAutoFormattingIndent(-1);
QCOMPARE(writer.autoFormattingIndent(), -1);
writer.writeStartDocument();
writer.writeStartElement("A");
writer.writeStartElement("B");
writer.writeEndDocument();
const char *str = "<?xml version=\"1.0\" encoding=\"UTF-8\"?>\n<A>\n\t<B/>\n</A>\n";
QCOMPARE(buffer.buffer().data(), str);
}
void tst_QXmlStream::writerAutoFormattingWithProcessingInstructions() const
{
QBuffer buffer;
buffer.open(QIODevice::WriteOnly);
QXmlStreamWriter writer(&buffer);
writer.setAutoFormatting(true);
writer.writeStartDocument();
writer.writeProcessingInstruction("B", "C");
writer.writeStartElement("A");
writer.writeEndElement();
writer.writeEndDocument();
const char *str = "<?xml version=\"1.0\" encoding=\"UTF-8\"?>\n<?B C?>\n<A/>\n";
QCOMPARE(buffer.buffer().data(), str);
}
/*!
Task 204822
*/
void tst_QXmlStream::writeAttributesWithSpace() const
{
QBuffer buffer;
buffer.open(QIODevice::WriteOnly);
QXmlStreamWriter writer(&buffer);
writer.writeStartDocument();
writer.writeEmptyElement("A");
writer.writeAttribute("attribute", QString("value")+QChar::Nbsp);
writer.writeEndDocument();
QString s = QString("<?xml version=\"1.0\" encoding=\"UTF-8\"?><A attribute=\"value%1\"/>\n").arg(QChar(QChar::Nbsp));
QCOMPARE(buffer.buffer().data(), s.toUtf8().data());
}
/*!
Task 209340
*/
void tst_QXmlStream::writerAutoEmptyTags() const
{
QBuffer buffer;
buffer.open(QIODevice::WriteOnly);
QXmlStreamWriter writer(&buffer);
writer.writeStartDocument();
writer.writeStartElement("Hans");
writer.writeAttribute("key", "value");
writer.writeEndElement();
writer.writeStartElement("Hans");
writer.writeAttribute("key", "value");
writer.writeEmptyElement("Leer");
writer.writeAttribute("key", "value");
writer.writeEndElement();
writer.writeStartElement("Hans");
writer.writeAttribute("key", "value");
writer.writeCharacters("stuff");
writer.writeEndElement();
writer.writeEndDocument();
QString s = QString("<?xml version=\"1.0\" encoding=\"UTF-8\"?><Hans key=\"value\"/><Hans key=\"value\"><Leer key=\"value\"/></Hans><Hans key=\"value\">stuff</Hans>\n");
QCOMPARE(buffer.buffer().data(), s.toUtf8().data());
}
void tst_QXmlStream::readFromQBuffer() const
{
QByteArray in("<e/>");
QBuffer buffer(&in);
QVERIFY(buffer.open(QIODevice::ReadOnly));
QXmlStreamReader reader(&buffer);
while(!reader.atEnd())
{
reader.readNext();
}
QVERIFY(!reader.hasError());
}
void tst_QXmlStream::readFromQBufferInvalid() const
{
QByteArray in("<e/><e/>");
QBuffer buffer(&in);
QVERIFY(buffer.open(QIODevice::ReadOnly));
QXmlStreamReader reader(&buffer);
while(!reader.atEnd())
{
reader.readNext();
}
QVERIFY(reader.hasError());
}
void tst_QXmlStream::readNextStartElement() const
{
QLatin1String in("<?xml version=\"1.0\"?><A><!-- blah --><B><C/></B><B attr=\"value\"/>text</A>");
QXmlStreamReader reader(in);
QVERIFY(reader.readNextStartElement());
QVERIFY(reader.isStartElement() && reader.name() == "A");
int amountOfB = 0;
while (reader.readNextStartElement()) {
QVERIFY(reader.isStartElement() && reader.name() == "B");
++amountOfB;
reader.skipCurrentElement();
}
QCOMPARE(amountOfB, 2);
}
void tst_QXmlStream::readElementText() const
{
QFETCH(QXmlStreamReader::ReadElementTextBehaviour, behaviour);
QFETCH(QString, input);
QFETCH(QString, expected);
QXmlStreamReader reader(input);
QVERIFY(reader.readNextStartElement());
QCOMPARE(reader.readElementText(behaviour), expected);
}
void tst_QXmlStream::readElementText_data() const
{
QTest::addColumn<QXmlStreamReader::ReadElementTextBehaviour>("behaviour");
QTest::addColumn<QString>("input");
QTest::addColumn<QString>("expected");
QString validInput("<p>He was <em>never</em> going to admit<!-- TODO: rephrase --> his mistake.</p>");
QString invalidInput("<p>invalid...<p>");
QString invalidOutput("invalid...");
QTest::newRow("ErrorOnUnexpectedElement")
<< QXmlStreamReader::ErrorOnUnexpectedElement
<< validInput << QString("He was ");
QTest::newRow("IncludeChildElements")
<< QXmlStreamReader::IncludeChildElements
<< validInput << QString("He was never going to admit his mistake.");
QTest::newRow("SkipChildElements")
<< QXmlStreamReader::SkipChildElements
<< validInput << QString("He was going to admit his mistake.");
QTest::newRow("ErrorOnUnexpectedElement Invalid")
<< QXmlStreamReader::ErrorOnUnexpectedElement
<< invalidInput << invalidOutput;
QTest::newRow("IncludeChildElements Invalid")
<< QXmlStreamReader::IncludeChildElements
<< invalidInput << invalidOutput;
QTest::newRow("SkipChildElements Invalid")
<< QXmlStreamReader::SkipChildElements
<< invalidInput << invalidOutput;
}
void tst_QXmlStream::crashInUTF16Codec() const
{
QEventLoop eventLoop;
QNetworkAccessManager networkManager;
QNetworkRequest request(QUrl::fromLocalFile(QLatin1String(SRCDIR "data/051reduced.xml")));
QNetworkReply *const reply = networkManager.get(request);
eventLoop.connect(reply, SIGNAL(finished()), SLOT(quit()));
QCOMPARE(eventLoop.exec(), 0);
QXmlStreamReader reader(reply);
while(!reader.atEnd())
{
reader.readNext();
continue;
}
QVERIFY(!reader.hasError());
}
/*
In addition to QTestLib's flags, one can specify "-c <filename>" and have that file output in its canonical form.
*/
int main(int argc, char *argv[])
{
QCoreApplication app(argc, argv);
if (argc == 3 && QByteArray(argv[1]).startsWith("-c")) {
// output canonical only
bool error = false;
QByteArray canonical = makeCanonical(argv[2], "doc", error);
QTextStream myStdOut(stdout);
myStdOut << canonical << endl;
exit(0);
}
tst_QXmlStream tc;
return QTest::qExec(&tc, argc, argv);
}
void tst_QXmlStream::hasAttributeSignature() const
{
/* These functions should be const so invoke all
* of them on a const object. */
const QXmlStreamAttributes atts;
atts.hasAttribute(QLatin1String("localName"));
atts.hasAttribute(QString::fromLatin1("localName"));
atts.hasAttribute(QString::fromLatin1("http://example.com/"), QLatin1String("localName"));
/* The input arguments should be const references, not mutable references
* so pass const references. */
const QLatin1String latin1StringLocalName(QLatin1String("localName"));
const QString qStringLocalname(QLatin1String("localName"));
const QString namespaceURI(QLatin1String("http://example.com/"));
/* QLatin1String overload. */
atts.hasAttribute(latin1StringLocalName);
/* QString overload. */
atts.hasAttribute(latin1StringLocalName);
/* namespace/local name overload. */
atts.hasAttribute(namespaceURI, qStringLocalname);
}
void tst_QXmlStream::hasAttribute() const
{
QXmlStreamReader reader(QLatin1String("<e xmlns:p='http://example.com/2' xmlns='http://example.com/' "
"attr1='value' attr2='value2' p:attr3='value3' emptyAttr=''><noAttributes/></e>"));
QCOMPARE(reader.readNext(), QXmlStreamReader::StartDocument);
QCOMPARE(reader.readNext(), QXmlStreamReader::StartElement);
const QXmlStreamAttributes &atts = reader.attributes();
/* QLatin1String overload. */
QVERIFY(atts.hasAttribute(QLatin1String("attr1")));
QVERIFY(atts.hasAttribute(QLatin1String("attr2")));
QVERIFY(atts.hasAttribute(QLatin1String("p:attr3")));
QVERIFY(atts.hasAttribute(QLatin1String("emptyAttr")));
QVERIFY(!atts.hasAttribute(QLatin1String("DOESNOTEXIST")));
/* Test with an empty & null namespaces. */
QVERIFY(atts.hasAttribute(QString(), QLatin1String("attr2"))); /* A null string. */
QVERIFY(atts.hasAttribute(QLatin1String(""), QLatin1String("attr2"))); /* An empty string. */
/* QString overload. */
QVERIFY(atts.hasAttribute(QString::fromLatin1("attr1")));
QVERIFY(atts.hasAttribute(QString::fromLatin1("attr2")));
QVERIFY(atts.hasAttribute(QString::fromLatin1("p:attr3")));
QVERIFY(atts.hasAttribute(QString::fromLatin1("emptyAttr")));
QVERIFY(!atts.hasAttribute(QString::fromLatin1("DOESNOTEXIST")));
/* namespace/local name overload. */
QVERIFY(atts.hasAttribute(QString(), QString::fromLatin1("attr1")));
/* Attributes do not pick up the default namespace. */
QVERIFY(!atts.hasAttribute(QLatin1String("http://example.com/"), QString::fromLatin1("attr1")));
QVERIFY(atts.hasAttribute(QLatin1String("http://example.com/2"), QString::fromLatin1("attr3")));
QVERIFY(atts.hasAttribute(QString(), QString::fromLatin1("emptyAttr")));
QVERIFY(!atts.hasAttribute(QLatin1String("http://example.com/2"), QString::fromLatin1("DOESNOTEXIST")));
QVERIFY(!atts.hasAttribute(QLatin1String("WRONG_NAMESPACE"), QString::fromLatin1("attr3")));
/* Invoke on an QXmlStreamAttributes that has no attributes at all. */
QCOMPARE(reader.readNext(), QXmlStreamReader::StartElement);
const QXmlStreamAttributes &atts2 = reader.attributes();
QVERIFY(atts2.isEmpty());
/* QLatin1String overload. */
QVERIFY(!atts.hasAttribute(QLatin1String("arbitraryName")));
/* QString overload. */
QVERIFY(!atts.hasAttribute(QString::fromLatin1("arbitraryName")));
/* namespace/local name overload. */
QVERIFY(!atts.hasAttribute(QLatin1String("http://example.com/"), QString::fromLatin1("arbitraryName")));
while(!reader.atEnd())
reader.readNext();
QVERIFY(!reader.hasError());
}
void tst_QXmlStream::writeWithCodec() const
{
QByteArray outarray;
QXmlStreamWriter writer(&outarray);
writer.setAutoFormatting(true);
QTextCodec *codec = QTextCodec::codecForName("ISO 8859-15");
QVERIFY(codec);
writer.setCodec(codec);
const char *latin2 = "h<EFBFBD> h<>";
const QString string = codec->toUnicode(latin2);
writer.writeStartDocument("1.0");
writer.writeTextElement("foo", string);
writer.writeEndElement();
writer.writeEndDocument();
QVERIFY(outarray.contains(latin2));
QVERIFY(outarray.contains(codec->name()));
}
void tst_QXmlStream::writeWithUtf8Codec() const
{
QByteArray outarray;
QXmlStreamWriter writer(&outarray);
QTextCodec *codec = QTextCodec::codecForMib(106); // utf-8
QVERIFY(codec);
writer.setCodec(codec);
writer.writeStartDocument("1.0");
static const char begin[] = "<?xml version=\"1.0\" encoding=\"UTF-8\"?>";
QVERIFY(outarray.startsWith(begin));
}
void tst_QXmlStream::writeWithStandalone() const
{
{
QByteArray outarray;
QXmlStreamWriter writer(&outarray);
writer.setAutoFormatting(true);
writer.writeStartDocument("1.0", true);
writer.writeEndDocument();
const char *ref = "<?xml version=\"1.0\" encoding=\"UTF-8\" standalone=\"yes\"?>\n";
QCOMPARE(outarray.constData(), ref);
}
{
QByteArray outarray;
QXmlStreamWriter writer(&outarray);
writer.setAutoFormatting(true);
writer.writeStartDocument("1.0", false);
writer.writeEndDocument();
const char *ref = "<?xml version=\"1.0\" encoding=\"UTF-8\" standalone=\"no\"?>\n";
QCOMPARE(outarray.constData(), ref);
}
}
void tst_QXmlStream::entitiesAndWhitespace_1() const
{
QXmlStreamReader reader(QLatin1String("<!DOCTYPE html PUBLIC \"-//W3C//DTD XHTML 1.1//EN\" \"http://www.w3.org/TR/xhtml11/DTD/xhtml11.dtd\"><test>&extEnt;</test>"));
int entityCount = 0;
int characterCount = 0;
while(!reader.atEnd())
{
QXmlStreamReader::TokenType token = reader.readNext();
switch(token)
{
case QXmlStreamReader::Characters:
characterCount++;
break;
case QXmlStreamReader::EntityReference:
entityCount++;
break;
default:
;
}
}
QCOMPARE(entityCount, 1);
QCOMPARE(characterCount, 0);
QVERIFY(!reader.hasError());
}
void tst_QXmlStream::entitiesAndWhitespace_2() const
{
QXmlStreamReader reader(QLatin1String("<test>&extEnt;</test>"));
int entityCount = 0;
int characterCount = 0;
while(!reader.atEnd())
{
QXmlStreamReader::TokenType token = reader.readNext();
switch(token)
{
case QXmlStreamReader::Characters:
characterCount++;
break;
case QXmlStreamReader::EntityReference:
entityCount++;
break;
default:
;
}
}
QCOMPARE(entityCount, 0);
QCOMPARE(characterCount, 0);
QVERIFY(reader.hasError());
}
void tst_QXmlStream::garbageInXMLPrologDefaultCodec() const
{
QBuffer out;
QVERIFY(out.open(QIODevice::ReadWrite));
QXmlStreamWriter writer (&out);
writer.writeStartDocument();
writer.writeEmptyElement("Foo");
writer.writeEndDocument();
QCOMPARE(out.data(), QByteArray("<?xml version=\"1.0\" encoding=\"UTF-8\"?><Foo/>\n"));
}
void tst_QXmlStream::garbageInXMLPrologUTF8Explicitly() const
{
QBuffer out;
QVERIFY(out.open(QIODevice::ReadWrite));
QXmlStreamWriter writer (&out);
writer.setCodec("UTF-8");
writer.writeStartDocument();
writer.writeEmptyElement("Foo");
writer.writeEndDocument();
QCOMPARE(out.data(), QByteArray("<?xml version=\"1.0\" encoding=\"UTF-8\"?><Foo/>\n"));
}
void tst_QXmlStream::clear() const // task 228768
{
QString xml = "<?xml version=\"1.0\" encoding=\"UTF-8\"?><body></body>";
QXmlStreamReader reader;
reader.addData(xml);
while (!reader.atEnd()) {
reader.readNext();
}
QCOMPARE(reader.tokenType(), QXmlStreamReader::EndDocument);
reader.clear();
reader.addData(xml);
while (!reader.atEnd()) {
reader.readNext();
}
QCOMPARE(reader.tokenType(), QXmlStreamReader::EndDocument);
// now we stop in the middle to check whether clear really works
reader.clear();
reader.addData(xml);
reader.readNext();
reader.readNext();
QCOMPARE(reader.tokenType(), QXmlStreamReader::StartElement);
// and here the final read
reader.clear();
reader.addData(xml);
while (!reader.atEnd()) {
reader.readNext();
}
QCOMPARE(reader.tokenType(), QXmlStreamReader::EndDocument);
}
void tst_QXmlStream::checkCommentIndentation_data() const
{
QTest::addColumn<QString>("input");
QTest::addColumn<QString>("expectedOutput");
QString simpleInput = "<a><!-- bla --></a>";
QString simpleOutput = "<?xml version=\"1.0\"?>\n"
"<a>\n"
" <!-- bla -->\n"
"</a>\n";
QTest::newRow("simple-comment") << simpleInput << simpleOutput;
QString advancedInput = "<a><!-- bla --><!-- bla --><b><!-- bla --><c><!-- bla --></c><!-- bla --></b></a>";
QString advancedOutput = "<?xml version=\"1.0\"?>\n"
"<a>\n"
" <!-- bla -->\n"
" <!-- bla -->\n"
" <b>\n"
" <!-- bla -->\n"
" <c>\n"
" <!-- bla -->\n"
" </c>\n"
" <!-- bla -->\n"
" </b>\n"
"</a>\n";
QTest::newRow("advanced-comment") << advancedInput << advancedOutput;
}
void tst_QXmlStream::checkCommentIndentation() const // task 256468
{
QFETCH(QString, input);
QFETCH(QString, expectedOutput);
QString output;
QXmlStreamReader reader(input);
QXmlStreamWriter writer(&output);
writer.setAutoFormatting(true);
writer.setAutoFormattingIndent(3);
while (!reader.atEnd()) {
reader.readNext();
if (reader.error()) {
QFAIL("error reading XML input");
} else {
writer.writeCurrentToken(reader);
}
}
QCOMPARE(output, expectedOutput);
}
void tst_QXmlStream::qtbug9196_crash() const
{
// the following input used to produce a crash in the stream reader
QByteArray ba("<a><a><a><a><a><a><a><a><a><a><a><a><a><a><a><a><a><a><a><a><a><a><a><a><a><a><a><a><a><a><a><a>"
"<a><a><a><a><a><a><a><a><a><a><a><a><a><a><a><a><a><a><a><a><a><a><a><a><a><a><a><a><a></a>");
QXmlStreamReader xml(ba);
while (!xml.atEnd()) {
xml.readNext();
}
}
class FakeBuffer : public QBuffer
{
protected:
qint64 writeData(const char *c, qint64 i)
{
qint64 ai = qMin(m_capacity, i);
m_capacity -= ai;
return ai ? QBuffer::writeData(c, ai) : 0;
}
public:
void setCapacity(int capacity) { m_capacity = capacity; }
private:
qint64 m_capacity;
};
void tst_QXmlStream::hasError() const
{
{
FakeBuffer fb;
QVERIFY(fb.open(QBuffer::ReadWrite));
fb.setCapacity(1000);
QXmlStreamWriter writer(&fb);
writer.writeStartDocument();
writer.writeEndDocument();
QVERIFY(!writer.hasError());
QCOMPARE(fb.data(), QByteArray("<?xml version=\"1.0\" encoding=\"UTF-8\"?>\n"));
}
{
// Failure caused by write(QString)
FakeBuffer fb;
QVERIFY(fb.open(QBuffer::ReadWrite));
fb.setCapacity(strlen("<?xml version=\""));
QXmlStreamWriter writer(&fb);
writer.writeStartDocument();
QVERIFY(writer.hasError());
QCOMPARE(fb.data(), QByteArray("<?xml version=\""));
}
{
// Failure caused by write(char *)
FakeBuffer fb;
QVERIFY(fb.open(QBuffer::ReadWrite));
fb.setCapacity(strlen("<?xml version=\"1.0"));
QXmlStreamWriter writer(&fb);
writer.writeStartDocument();
QVERIFY(writer.hasError());
QCOMPARE(fb.data(), QByteArray("<?xml version=\"1.0"));
}
{
// Failure caused by write(QStringRef)
FakeBuffer fb;
QVERIFY(fb.open(QBuffer::ReadWrite));
fb.setCapacity(strlen("<?xml version=\"1.0\" encoding=\"UTF-8\"?><test xmlns:"));
QXmlStreamWriter writer(&fb);
writer.writeStartDocument();
writer.writeStartElement("test");
writer.writeNamespace("http://foo.bar", "foo");
QVERIFY(writer.hasError());
QCOMPARE(fb.data(), QByteArray("<?xml version=\"1.0\" encoding=\"UTF-8\"?><test xmlns:"));
}
{
// Refusal to write after 1st failure
FakeBuffer fb;
QVERIFY(fb.open(QBuffer::ReadWrite));
fb.setCapacity(10);
QXmlStreamWriter writer(&fb);
writer.writeStartDocument();
QVERIFY(writer.hasError());
QCOMPARE(fb.data(), QByteArray("<?xml vers"));
fb.setCapacity(1000);
writer.writeStartElement("test"); // literal & qstring
writer.writeNamespace("http://foo.bar", "foo"); // literal & qstringref
QVERIFY(writer.hasError());
QCOMPARE(fb.data(), QByteArray("<?xml vers"));
}
}
#include "tst_qxmlstream.moc"
// vim: et:ts=4:sw=4:sts=4
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