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AutoTest: Move test framework related code...

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...into files and respective sub folders.

Change-Id: Ic80d693bd73993a6e74b6d422349e47276e8cb6e
Reviewed-by: David Schulz <david.schulz@theqtcompany.com>
This commit is contained in:
Christian Stenger
2016-05-11 13:02:42 +02:00
parent 6c18ed50d2
commit 2f8b4b3fbf
52 changed files with 3643 additions and 2427 deletions
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src/plugins/autotest/qtest/qttestoutputreader.cpp Normal file
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/****************************************************************************
**
** Copyright (C) 2016 The Qt Company Ltd.
** Contact: https://www.qt.io/licensing/
**
** This file is part of Qt Creator.
**
** Commercial License Usage
** Licensees holding valid commercial Qt licenses may use this file in
** accordance with the commercial license agreement provided with the
** Software or, alternatively, in accordance with the terms contained in
** a written agreement between you and The Qt Company. For licensing terms
** and conditions see https://www.qt.io/terms-conditions. For further
** information use the contact form at https://www.qt.io/contact-us.
**
** GNU General Public License Usage
** Alternatively, this file may be used under the terms of the GNU
** General Public License version 3 as published by the Free Software
** Foundation with exceptions as appearing in the file LICENSE.GPL3-EXCEPT
** included in the packaging of this file. Please review the following
** information to ensure the GNU General Public License requirements will
** be met: https://www.gnu.org/licenses/gpl-3.0.html.
**
****************************************************************************/
#include "qttestoutputreader.h"
#include "qttestresult.h"
#include <utils/qtcassert.h>
#include <QDir>
#include <QFileInfo>
#include <QRegExp>
namespace Autotest {
namespace Internal {
static QString decode(const QString& original)
{
QString result(original);
static QRegExp regex(QLatin1String("&#((x[0-9A-F]+)|([0-9]+));"), Qt::CaseInsensitive);
regex.setMinimal(true);
int pos = 0;
while ((pos = regex.indexIn(original, pos)) != -1) {
const QString value = regex.cap(1);
if (value.startsWith(QLatin1Char('x')))
result.replace(regex.cap(0), QChar(value.midRef(1).toInt(0, 16)));
else
result.replace(regex.cap(0), QChar(value.toInt(0, 10)));
pos += regex.matchedLength();
}
return result;
}
// adapted from qplaintestlogger.cpp
static QString formatResult(double value)
{
//NAN is not supported with visual studio 2010
if (value < 0)// || value == NAN)
return QLatin1String("NAN");
if (value == 0)
return QLatin1String("0");
int significantDigits = 0;
qreal divisor = 1;
while (value / divisor >= 1) {
divisor *= 10;
++significantDigits;
}
QString beforeDecimalPoint = QString::number(value, 'f', 0);
QString afterDecimalPoint = QString::number(value, 'f', 20);
afterDecimalPoint.remove(0, beforeDecimalPoint.count() + 1);
const int beforeUse = qMin(beforeDecimalPoint.count(), significantDigits);
const int beforeRemove = beforeDecimalPoint.count() - beforeUse;
beforeDecimalPoint.chop(beforeRemove);
for (int i = 0; i < beforeRemove; ++i)
beforeDecimalPoint.append(QLatin1Char('0'));
int afterUse = significantDigits - beforeUse;
if (beforeDecimalPoint == QLatin1String("0") && !afterDecimalPoint.isEmpty()) {
++afterUse;
int i = 0;
while (i < afterDecimalPoint.count() && afterDecimalPoint.at(i) == QLatin1Char('0'))
++i;
afterUse += i;
}
const int afterRemove = afterDecimalPoint.count() - afterUse;
afterDecimalPoint.chop(afterRemove);
QString result = beforeDecimalPoint;
if (afterUse > 0)
result.append(QLatin1Char('.'));
result += afterDecimalPoint;
return result;
}
static QString constructBenchmarkInformation(const QString &metric, double value, int iterations)
{
QString metricsText;
if (metric == QLatin1String("WalltimeMilliseconds")) // default
metricsText = QLatin1String("msecs");
else if (metric == QLatin1String("CPUTicks")) // -tickcounter
metricsText = QLatin1String("CPU ticks");
else if (metric == QLatin1String("Events")) // -eventcounter
metricsText = QLatin1String("events");
else if (metric == QLatin1String("InstructionReads")) // -callgrind
metricsText = QLatin1String("instruction reads");
else if (metric == QLatin1String("CPUCycles")) // -perf
metricsText = QLatin1String("CPU cycles");
return QtTestOutputReader::tr("%1 %2 per iteration (total: %3, iterations: %4)")
.arg(formatResult(value))
.arg(metricsText)
.arg(formatResult(value * (double)iterations))
.arg(iterations);
}
static QString constructSourceFilePath(const QString &path, const QString &filePath)
{
return QFileInfo(path, filePath).canonicalFilePath();
}
QtTestOutputReader::QtTestOutputReader(const QFutureInterface<TestResultPtr> &futureInterface,
QProcess *testApplication, const QString &buildDirectory)
: TestOutputReader(futureInterface, testApplication, buildDirectory)
{
}
void QtTestOutputReader::processOutput()
{
if (!m_testApplication || m_testApplication->state() != QProcess::Running)
return;
static QStringList validEndTags = { QStringLiteral("Incident"),
QStringLiteral("Message"),
QStringLiteral("BenchmarkResult"),
QStringLiteral("QtVersion"),
QStringLiteral("QtBuild"),
QStringLiteral("QTestVersion") };
while (m_testApplication->canReadLine()) {
m_xmlReader.addData(m_testApplication->readLine());
while (!m_xmlReader.atEnd()) {
if (m_futureInterface.isCanceled())
return;
QXmlStreamReader::TokenType token = m_xmlReader.readNext();
switch (token) {
case QXmlStreamReader::StartDocument:
m_className.clear();
break;
case QXmlStreamReader::EndDocument:
m_xmlReader.clear();
return;
case QXmlStreamReader::StartElement: {
const QString currentTag = m_xmlReader.name().toString();
if (currentTag == QStringLiteral("TestCase")) {
m_className = m_xmlReader.attributes().value(QStringLiteral("name")).toString();
QTC_ASSERT(!m_className.isEmpty(), continue);
TestResultPtr testResult = TestResultPtr(new QtTestResult(m_className));
testResult->setResult(Result::MessageTestCaseStart);
testResult->setDescription(tr("Executing test case %1").arg(m_className));
m_futureInterface.reportResult(testResult);
} else if (currentTag == QStringLiteral("TestFunction")) {
m_testCase = m_xmlReader.attributes().value(QStringLiteral("name")).toString();
QTC_ASSERT(!m_testCase.isEmpty(), continue);
TestResultPtr testResult = TestResultPtr(new QtTestResult());
testResult->setResult(Result::MessageCurrentTest);
testResult->setDescription(tr("Entering test function %1::%2").arg(m_className,
m_testCase));
m_futureInterface.reportResult(testResult);
} else if (currentTag == QStringLiteral("Duration")) {
m_duration = m_xmlReader.attributes().value(QStringLiteral("msecs")).toString();
QTC_ASSERT(!m_duration.isEmpty(), continue);
} else if (currentTag == QStringLiteral("Message")
|| currentTag == QStringLiteral("Incident")) {
m_dataTag.clear();
m_description.clear();
m_duration.clear();
m_file.clear();
m_result = Result::Invalid;
m_lineNumber = 0;
const QXmlStreamAttributes &attributes = m_xmlReader.attributes();
m_result = TestResult::resultFromString(
attributes.value(QStringLiteral("type")).toString());
m_file = decode(attributes.value(QStringLiteral("file")).toString());
if (!m_file.isEmpty()) {
m_file = constructSourceFilePath(m_buildDir, m_file);
}
m_lineNumber = attributes.value(QStringLiteral("line")).toInt();
} else if (currentTag == QStringLiteral("BenchmarkResult")) {
const QXmlStreamAttributes &attributes = m_xmlReader.attributes();
const QString metric = attributes.value(QStringLiteral("metrics")).toString();
const double value = attributes.value(QStringLiteral("value")).toDouble();
const int iterations = attributes.value(QStringLiteral("iterations")).toInt();
m_description = constructBenchmarkInformation(metric, value, iterations);
m_result = Result::Benchmark;
} else if (currentTag == QStringLiteral("DataTag")) {
m_cdataMode = DataTag;
} else if (currentTag == QStringLiteral("Description")) {
m_cdataMode = Description;
} else if (currentTag == QStringLiteral("QtVersion")) {
m_result = Result::MessageInternal;
m_cdataMode = QtVersion;
} else if (currentTag == QStringLiteral("QtBuild")) {
m_result = Result::MessageInternal;
m_cdataMode = QtBuild;
} else if (currentTag == QStringLiteral("QTestVersion")) {
m_result = Result::MessageInternal;
m_cdataMode = QTestVersion;
}
break;
}
case QXmlStreamReader::Characters: {
QStringRef text = m_xmlReader.text().trimmed();
if (text.isEmpty())
break;
switch (m_cdataMode) {
case DataTag:
m_dataTag = text.toString();
break;
case Description:
if (!m_description.isEmpty())
m_description.append(QLatin1Char('\n'));
m_description.append(text);
break;
case QtVersion:
m_description = tr("Qt version: %1").arg(text.toString());
break;
case QtBuild:
m_description = tr("Qt build: %1").arg(text.toString());
break;
case QTestVersion:
m_description = tr("QTest version: %1").arg(text.toString());
break;
default:
// this must come from plain printf() calls - but this will be ignored anyhow
qWarning() << "Ignored plain output:" << text.toString();
break;
}
break;
}
case QXmlStreamReader::EndElement: {
m_cdataMode = None;
const QStringRef currentTag = m_xmlReader.name();
if (currentTag == QStringLiteral("TestFunction")) {
if (!m_duration.isEmpty()) {
QtTestResult *testResult = new QtTestResult(m_className);
testResult->setFunctionName(m_testCase);
testResult->setResult(Result::MessageInternal);
testResult->setDescription(tr("Execution took %1 ms.").arg(m_duration));
m_futureInterface.reportResult(TestResultPtr(testResult));
}
m_futureInterface.setProgressValue(m_futureInterface.progressValue() + 1);
} else if (currentTag == QStringLiteral("TestCase")) {
QtTestResult *testResult = new QtTestResult(m_className);
testResult->setResult(Result::MessageTestCaseEnd);
testResult->setDescription(
m_duration.isEmpty() ? tr("Test finished.")
: tr("Test execution took %1 ms.").arg(m_duration));
m_futureInterface.reportResult(TestResultPtr(testResult));
} else if (validEndTags.contains(currentTag.toString())) {
QtTestResult *testResult = new QtTestResult(m_className);
testResult->setFunctionName(m_testCase);
testResult->setDataTag(m_dataTag);
testResult->setResult(m_result);
testResult->setFileName(m_file);
testResult->setLine(m_lineNumber);
testResult->setDescription(m_description);
m_futureInterface.reportResult(TestResultPtr(testResult));
}
break;
}
default:
break;
}
}
}
}
} // namespace Internal
} // namespace Autotest