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#include <QtTest/QtTest>
#include <q3process.h>
#include <qregexp.h>
#include <qdebug.h>
QT_FORWARD_DECLARE_CLASS(Q3Process)
//TESTED_CLASS=
//TESTED_FILES=
class tst_Q3Process : public QObject
{
Q_OBJECT
public:
tst_Q3Process();
virtual ~tst_Q3Process();
public slots:
void init();
void cleanup();
private slots:
void readLineStdout_data();
void readLineStdout();
void readLineStderr_data();
void readLineStderr();
void communication_data();
void communication();
void canReadLineStdout_data();
void canReadLineStdout();
void canReadLineStderr_data();
void canReadLineStderr();
void startWithNoEnvironment();
void startWithEmptyStringArgument();
protected slots:
void processExited();
void exitLoopSlot();
private:
Q3Process *proc;
QStringList linesReadStdout;
QStringList linesReadStderr;
};
tst_Q3Process::tst_Q3Process()
: proc(0)
{
}
tst_Q3Process::~tst_Q3Process()
{
}
void tst_Q3Process::init()
{
linesReadStdout.clear();
linesReadStderr.clear();
}
void tst_Q3Process::cleanup()
{
if ( proc ) {
proc->kill();
delete proc;
proc = 0;
}
}
void tst_Q3Process::readLineStdout_data()
{
QTest::addColumn<QString>("input");
QTest::addColumn<QStringList>("res");
QStringList l;
QTest::newRow( "unix_0" ) << QString("a\nbc\ndef\nghij\n")
<< (QStringList)( l << "a" << "bc" << "def" << "ghij" );
l.clear();
QTest::newRow( "unix_1" ) << QString("a\nbc\ndef\nghij")
<< (QStringList)( l << "a" << "bc" << "def" << "ghij" );
l.clear();
QTest::newRow( "unix_2" ) << QString("a\nbc\n\ndef\nghij\n")
<< (QStringList)( l << "a" << "bc" << "" << "def" << "ghij" );
l.clear();
QTest::newRow( "windows_0" ) << QString("a\r\nbc\r\ndef\r\nghij\r\n")
<< (QStringList)( l << "a" << "bc" << "def" << "ghij" );
l.clear();
QTest::newRow( "windows_1" ) << QString("a\r\nbc\r\ndef\r\nghij")
<< (QStringList)( l << "a" << "bc" << "def" << "ghij" );
l.clear();
QTest::newRow( "windows_2" ) << QString("a\r\nbc\r\n\r\ndef\r\nghij\r\n")
<< (QStringList)( l << "a" << "bc" << "" << "def" << "ghij" );
l.clear();
QTest::newRow( "mixed_0" ) << QString("a\r\nbc\ndef\r\nghij\n")
<< (QStringList)( l << "a" << "bc" << "def" << "ghij" );
l.clear();
QTest::newRow( "mixed_1" ) << QString("a\nbc\r\ndef\nghij\r\n")
<< (QStringList)( l << "a" << "bc" << "def" << "ghij" );
l.clear();
QTest::newRow( "mixed_2" ) << QString("a\nbc\r\r\ndef\r\r\r\nghij\r\r\r\r\n")
<< (QStringList)( l << "a" << "bc\r" << "def\r\r" << "ghij\r\r\r" );
l.clear();
}
void tst_Q3Process::readLineStdout()
{
QFETCH( QString, input );
if (proc) delete proc;
proc = new Q3Process( QString("cat/cat") );
connect( proc, SIGNAL(processExited()),
SLOT(processExited()) );
QVERIFY( proc->launch( input ) );
QTestEventLoop::instance().enterLoop( 29 );
if ( QTestEventLoop::instance().timeout() )
QFAIL( "Operation timed out" );
QTEST( linesReadStdout, "res" );
}
void tst_Q3Process::readLineStderr_data()
{
readLineStdout_data();
}
void tst_Q3Process::readLineStderr()
{
QFETCH( QString, input );
if (proc) delete proc;
proc = new Q3Process( QString("cat/cat -stderr").split(' ') );
connect( proc, SIGNAL(processExited()),
SLOT(processExited()) );
QVERIFY( proc->launch( input ) );
QTestEventLoop::instance().enterLoop( 29 );
if ( QTestEventLoop::instance().timeout() )
QFAIL( "Operation timed out" );
QTEST( linesReadStderr, "res" );
}
void tst_Q3Process::communication_data()
{
QTest::addColumn<QStringList>("command");
QTest::addColumn<int>("commFlags");
QTest::addColumn<QString>("input");
QTest::addColumn<QString>("resStdout");
QTest::addColumn<QString>("resStderr");
QTest::newRow( "no_dup_0" ) << QString("cat/cat").split(' ')
<< ( Q3Process::Stdin | Q3Process::Stdout | Q3Process::Stderr )
<< QString("12345")
<< QString("12345")
<< QString();
QTest::newRow( "no_dup_1" ) << QString("cat/cat -stderr").split(' ')
<< ( Q3Process::Stdin | Q3Process::Stdout | Q3Process::Stderr )
<< QString("12345")
<< QString()
<< QString("12345");
QTest::newRow( "no_dup_2" ) << QString("cat/cat -stdout_and_stderr").split(' ')
<< ( Q3Process::Stdin | Q3Process::Stdout | Q3Process::Stderr )
<< QString("12345")
<< QString("12345")
<< QString("23456");
QTest::newRow( "dup_0" ) << QString("cat/cat").split(' ')
<< ( Q3Process::Stdin | Q3Process::Stdout | Q3Process::Stderr | Q3Process::DupStderr )
<< QString("12345")
<< QString("12345")
<< QString();
QTest::newRow( "dup_1" ) << QString("cat/cat -stderr").split(' ')
<< ( Q3Process::Stdin | Q3Process::Stdout | Q3Process::Stderr | Q3Process::DupStderr )
<< QString("12345")
<< QString("12345")
<< QString();
QTest::newRow( "dup_2" ) << QString("cat/cat -stdout_and_stderr").split(' ')
<< ( Q3Process::Stdin | Q3Process::Stdout | Q3Process::Stderr | Q3Process::DupStderr )
<< QString("12345")
<< QString("1223344556")
<< QString();
}
void tst_Q3Process::communication()
{
for ( int i=0; i<2; i++ ) {
cleanup();
QFETCH( QStringList, command );
QFETCH( int, commFlags );
QFETCH( QString, input );
if (proc) delete proc;
proc = new Q3Process( command );
proc->setCommunication( commFlags );
connect( proc, SIGNAL(processExited()),
SLOT(processExited()) );
QVERIFY( proc->launch( input ) );
QTestEventLoop::instance().enterLoop( 29 );
if ( QTestEventLoop::instance().timeout() )
QFAIL( "Operation timed out" );
if ( i == 0 ) {
QTEST( QString( proc->readStdout() ), "resStdout" );
QTEST( QString( proc->readStderr() ), "resStderr" );
} else {
QTEST( QString( proc->readStdout() ), "resStdout" );
QTEST( QString( proc->readStderr() ), "resStderr" );
}
}
}
void tst_Q3Process::canReadLineStdout_data()
{
readLineStdout_data();
}
void tst_Q3Process::canReadLineStdout()
{
// This function tests the busy-loop abilities of the canReadLineStdout()
// function.
QFETCH( QString, input );
QFETCH(QStringList, res);
if (proc) delete proc;
proc = new Q3Process( QString("cat/cat") );
QVERIFY( proc->start() );
proc->writeToStdin( input );
proc->flushStdin();
proc->closeStdin();
do {
connect(proc, SIGNAL(readyReadStdout()), this, SLOT(exitLoopSlot()));
QTestEventLoop::instance().enterLoop(5);
if (QTestEventLoop::instance().timeout()) {
if (!proc->isRunning())
break;
QFAIL("Timed out while waiting for my kids");
}
// q3process can (actually!) emit readyRead() when
// canReadLineStdout() is called.
proc->disconnect();
while ( proc->canReadLineStdout() )
linesReadStdout << proc->readLineStdout();
} while (linesReadStdout.size() < res.size() && proc->isRunning());
// q3process can (actually!) emit readyRead() when
// canReadLineStdout() is called.
proc->disconnect();
// if the last line is not terminated with a newline, we get it only after
// we determined that the process is not running anymore
if ( proc->canReadLineStdout() )
linesReadStdout << proc->readLineStdout();
QCOMPARE( linesReadStdout, res );
}
void tst_Q3Process::exitLoopSlot()
{
QTestEventLoop::instance().exitLoop();
}
void tst_Q3Process::canReadLineStderr_data()
{
readLineStdout_data();
}
void tst_Q3Process::canReadLineStderr()
{
// This function tests the busy-loop abilities of the canReadLineStderr()
// function.
QFETCH( QString, input );
QFETCH(QStringList, res);
if (proc) delete proc;
proc = new Q3Process( QString("cat/cat -stderr").split(' ') );
QVERIFY( proc->start() );
proc->writeToStdin( input );
proc->flushStdin();
proc->closeStdin();
do {
connect(proc, SIGNAL(readyReadStderr()), this, SLOT(exitLoopSlot()));
QTestEventLoop::instance().enterLoop(5);
if (QTestEventLoop::instance().timeout()) {
if (!proc->isRunning())
break;
QFAIL("Timed out while waiting for my kids");
}
// q3process can (actually!) emit readyRead() when
// canReadLineStdout() is called.
proc->disconnect();
while ( proc->canReadLineStderr() )
linesReadStderr << proc->readLineStderr();
} while (linesReadStderr.size() < res.size() && proc->isRunning());
// q3process can (actually!) emit readyRead() when
// canReadLineStdout() is called.
proc->disconnect();
// if the last line is not terminated with a newline, we get it only after
// we determined that the process is not running anymore
if ( proc->canReadLineStderr() )
linesReadStderr << proc->readLineStderr();
QCOMPARE( linesReadStderr, res );
}
void tst_Q3Process::processExited()
{
if ( QTest::currentTestFunction() == QLatin1String("readLineStdout") ) {
QVERIFY( proc != 0 );
// q3process can (actually!) emit readyRead() when
// canReadLineStdout() is called.
proc->disconnect();
while ( proc->canReadLineStdout() )
linesReadStdout << proc->readLineStdout();
// if canReadLine...() returns FALSE, the readLine...() function should
// return QString::null
QVERIFY( proc->readLineStdout().isNull() );
QTestEventLoop::instance().exitLoop();
} else if ( QTest::currentTestFunction() == QLatin1String("readLineStderr") ) {
QVERIFY( proc != 0 );
// q3process can (actually!) emit readyRead() when
// canReadLineStdout() is called.
proc->disconnect();
while ( proc->canReadLineStderr() )
linesReadStderr << proc->readLineStderr();
// if canReadLine...() returns FALSE, the readLine...() function should
// return QString::null
QVERIFY( proc->readLineStderr().isNull() );
QTestEventLoop::instance().exitLoop();
} else if ( QTest::currentTestFunction() == QLatin1String("communication") ) {
QTestEventLoop::instance().exitLoop();
}
}
void tst_Q3Process::startWithNoEnvironment()
{
QStringList args;
QByteArray result;
#ifdef Q_OS_MACX
args << "./echo/echo.app";
result = "./echo/echo.app/Contents/MacOS/echo";
#elif defined Q_OS_WIN
args << "./echo/echo";
result = "echo";
#else
args << "./echo/echo";
result = args[0];
#endif
args << "foo";
proc = new Q3Process(args);
QVERIFY(proc->start(/* environment = */ 0));
connect(proc, SIGNAL(readyReadStdout()), this, SLOT(exitLoopSlot()));
QTestEventLoop::instance().enterLoop(10);
QVERIFY(!QTestEventLoop::instance().timeout());
#ifdef Q_OS_WIN
// on different windows compilers the first arg is different,
// some just pass what was passed to createprocess while others
// expand the entire path.
QVERIFY(proc->readStdout().contains(result));
#else
QCOMPARE(proc->readStdout(), result);
#endif
}
void tst_Q3Process::startWithEmptyStringArgument()
{
// Test that this doesn't assert (task 122353)
Q3Process process("cmd");
process.addArgument(QString());
QStringList env;
process.start(&env);
}
QTEST_MAIN(tst_Q3Process)
#include "tst_q3process.moc"