Base *Reader::parseExpression()
{
skipWhitespace();
auto c = current();
if(c == kObjectBegin) {
return parseObject();
} else if(c == kArrayBegin) {
return parseArray();
} else if(c == kStringBegin) {
return parseString();
} else if(is_number(c, true)) {
return parseNumber();
} else if(borrow(gTrueString->length())->isEqual(gTrueString)) {
fastForward(gTrueString->length() - 1);
return Number::True();
} else if(borrow(gFalseString->length())->isEqual(gFalseString)) {
fastForward(gFalseString->length() - 1);
return Number::False();
} else if(borrow(gNullString->length())->isEqual(gNullString)) {
fastForward(gNullString->length() - 1);
return Null::shared();
} else {
fail(String::Builder() << "unexpected '" << c << "'.");
}
return nullptr;
}
void ComplementFile::processHits(RecordOutputMgr *outputMgr, RecordKeyVector &hits)
{
_outputMgr = outputMgr;
const Record *rec = hits.getKey();
//test for chrom change.
const string &newChrom = rec->getChrName();
if (_currChrom != newChrom) {
outPutLastRecordInPrevChrom();
//if record's chrom doesn't exist in the genome file, do
//nothing
if (!fastForward(newChrom)) return;
//we've switched to a new chromosome that is in both the DB
//and genome file.
_currStartPos = 0;
_currChrom = newChrom;
_outRecord.setChrName(newChrom);
}
// warn if the record's interval is beyond the
// length of the chromosome
checkCoordinatesAgainstChromLength(rec);
// safe guard against the first record for the chrom
// starting with 0.
if (rec->getStartPos() != 0)
{
CHRPOS endPos = rec->getStartPos();
printRecord(endPos);
}
_currStartPos = rec->getEndPos();
}
void ComplementFile::processHits(RecordOutputMgr *outputMgr, RecordKeyVector &hits)
{
_outputMgr = outputMgr;
const Record *rec = hits.getKey();
//test for chrom change.
const QuickString &newChrom = rec->getChrName();
if (_currChrom != newChrom) {
outPutLastRecordInPrevChrom();
//if record's chrom doesn't exist in the genome file, do
//nothing
if (!fastForward(newChrom)) return;
//we've switched to a new chromosome that is in both the DB
//and genome file.
_currStartPos = 0;
_currChrom = newChrom;
_outRecord.setChrName(newChrom);
}
int endPos = rec->getStartPos();
printRecord(endPos);
_currStartPos = rec->getEndPos();
}
void handleKeypress1(unsigned char key, int x, int y) {
if(!board.getGameEnded()){
if(!board.striker.moving()){
if(key == 'a' || key == 'A')
board.striker.changeAngle(ANGLE_FACTOR);
if(key == 'c' || key =='C')
board.striker.changeAngle(-1*ANGLE_FACTOR);
if(key == ' '){
board.striker.startMoving();
time_t t;
t=time(NULL);
board.updateSTime(t);
board.striker.release();
}
}
if (key == 'r' || key == 'R'){
fastForward();
board.striker.reset();
}
}
else{
if(key == 'n' || key== 'N')
exit(0);
if(key=='y' || key=='Y'|| key == 13){
board.init(0.0f,0.0f);
a=1;
}
}
if (key == 27)
exit(0); // escape key is pressed
}
bool Stream::didSeek(const Timer& timer, sf::Time oldPosition)
{
if (timer.getOffset() != sf::Time::Zero)
return fastForward(timer.getOffset());
return true;
}
MainWindow::MainWindow(QWidget *parent) :
QMainWindow(parent),
ui(new Ui::MainWindow),
timer(new QTimer(this))
{
ui->setupUi(this);
this->setWindowIcon(QIcon(":/icon.png"));
Qt::WindowFlags flags = this->windowFlags();
this->setWindowFlags(flags | Qt::X11BypassWindowManagerHint | Qt::WindowStaysOnTopHint | Qt::FramelessWindowHint); //
this->setAttribute(Qt::WA_TranslucentBackground, true);
timer->setTimerType(Qt::PreciseTimer); // fixes subtitle delay
connect(timer, SIGNAL(timeout()), this, SLOT(update()));
connect(ui->backwardButton, SIGNAL(clicked()), this, SLOT(fastBackward()));
connect(ui->forwardButton, SIGNAL(clicked()), this, SLOT(fastForward()));
connect(ui->toggleButton, SIGNAL(clicked()), this, SLOT(togglePlay()));
connect(ui->loadButton, SIGNAL(clicked()), this, SLOT(openFileDialog()));
connect(ui->prefButton, SIGNAL(clicked()), this, SLOT(openSettingsWindow()));
connect(ui->quitButton, SIGNAL(clicked()), qApp, SLOT(quit()));
connect(ui->horizontalSlider, SIGNAL(sliderMoved(int)), this, SLOT(sliderMoved(int)));
if (QSystemTrayIcon::isSystemTrayAvailable()) {
trayIcon = new QSystemTrayIcon();
trayIcon->setIcon(QIcon(":/icon.png"));
connect(trayIcon, SIGNAL(activated(QSystemTrayIcon::ActivationReason)),
this, SLOT(iconActivated(QSystemTrayIcon::ActivationReason)));
menu = new QMenu();
QAction *settings = new QAction("Preferences", 0);
connect(settings, SIGNAL(triggered()), this, SLOT(openSettingsWindow()));
menu->addAction(settings);
QAction *quit = new QAction("Quit", 0);
connect(quit, SIGNAL(triggered()), qApp, SLOT(quit()));
menu->addAction(quit);
trayIcon->setContextMenu(menu);
trayIcon->show();
}
this->setAttribute(Qt::WA_Hover, true);
ui->bottomWidgets->setAttribute(Qt::WA_NoMousePropagation); // fix window disappear problem
this->loadPref();
setAcceptDrops(true);
}
void AsyncTimerFactoryMock::fastForward(Milliseconds time) {
stdx::lock_guard<stdx::recursive_mutex> lk(_timersMutex);
_curTime += time;
// Timers may be reset, so keep them in our set even if they have expired.
for (auto elem = _timers.begin(); elem != _timers.end(); elem++) {
auto timer = *elem;
timer->fastForward(time);
}
}
LircCommander::LircCommander(LircClient *lirc, RosegardenMainWindow *rgGUIApp)
: QObject()
{
m_lirc = lirc;
m_rgGUIApp = rgGUIApp;
connect(m_lirc, SIGNAL(buttonPressed(const char *)),
this, SLOT(slotExecute(const char *)) );
connect(this, SIGNAL(play()),
m_rgGUIApp, SLOT(slotPlay()) );
connect(this, SIGNAL(stop()),
m_rgGUIApp, SLOT(slotStop()) );
connect(this, SIGNAL(record()),
m_rgGUIApp, SLOT(slotRecord()) );
connect(this, SIGNAL(rewind()),
m_rgGUIApp, SLOT(slotRewind()) );
connect(this, SIGNAL(rewindToBeginning()),
m_rgGUIApp, SLOT(slotRewindToBeginning()) );
connect(this, SIGNAL(fastForward()),
m_rgGUIApp, SLOT(slotFastforward()) );
connect(this, SIGNAL(fastForwardToEnd()),
m_rgGUIApp, SLOT(slotFastForwardToEnd()) );
connect(this, SIGNAL(toggleRecord()),
m_rgGUIApp, SLOT(slotToggleRecord()) );
connect(this, SIGNAL(trackDown()),
m_rgGUIApp, SLOT(slotTrackDown()) );
connect(this, SIGNAL(trackUp()),
m_rgGUIApp, SLOT(slotTrackUp()) );
connect(this, SIGNAL(trackMute()),
m_rgGUIApp, SLOT(slotToggleMute()) );
connect(this, SIGNAL(trackRecord()),
m_rgGUIApp, SLOT(slotToggleRecordCurrentTrack()) );
connect(this, SIGNAL(undo()),
CommandHistory::getInstance(), SLOT(undo()) );
connect(this, SIGNAL(redo()),
CommandHistory::getInstance(), SLOT(redo()) );
connect(this, SIGNAL(aboutrg()),
m_rgGUIApp, SLOT(slotHelpAbout()) );
connect(this, SIGNAL(editInMatrix()),
m_rgGUIApp, SLOT(slotEditInMatrix()) );
connect(this, SIGNAL(editInPercussionMatrix()),
m_rgGUIApp, SLOT(slotEditInPercussionMatrix()) );
connect(this, SIGNAL(editInEventList()),
m_rgGUIApp, SLOT(slotEditInEventList()) );
connect(this, SIGNAL(editAsNotation()),
m_rgGUIApp, SLOT(slotEditAsNotation()) );
connect(this, SIGNAL(quit()),
m_rgGUIApp, SLOT(slotQuit()) );
connect(this, SIGNAL(closeTransport()),
m_rgGUIApp, SLOT(slotCloseTransport()) );
connect(this, SIGNAL(toggleTransportVisibility()),
m_rgGUIApp, SLOT(slotToggleTransportVisibility()) );
}
void Player::connectTransport(const TransportControllable* receiver)
{
if (receiver == m_currentTransport) return;
if (m_currentTransport)
disconnect(m_currentTransport);
m_currentTransport = receiver;
connect(this, SIGNAL(played(double)), receiver, SLOT(play(double)));
connect(this, SIGNAL(paused()), receiver, SLOT(pause()));
connect(this, SIGNAL(stopped()), receiver, SLOT(stop()));
connect(this, SIGNAL(seeked(int)), receiver, SLOT(seek(int)));
connect(this, SIGNAL(rewound()), receiver, SLOT(rewind()));
connect(this, SIGNAL(fastForwarded()), receiver, SLOT(fastForward()));
connect(this, SIGNAL(previousSought(int)), receiver, SLOT(previous(int)));
connect(this, SIGNAL(nextSought(int)), receiver, SLOT(next(int)));
connect(this, SIGNAL(inChanged(int)), receiver, SLOT(setIn(int)));
connect(this, SIGNAL(outChanged(int)), receiver, SLOT(setOut(int)));
}
void AsyncTimerFactoryMock::fastForward(Milliseconds time) {
stdx::lock_guard<stdx::mutex> lk(_timersMutex);
_curTime += time;
// erase after iterating to be safe
stdx::unordered_set<std::shared_ptr<AsyncTimerMockImpl>> expired;
for (auto elem = _timers.begin(); elem != _timers.end(); elem++) {
auto timer = *elem;
// If timer has expired, register it for removal from our set.
if (!timer->fastForward(time)) {
expired.insert(timer);
}
}
for (auto elem = expired.begin(); elem != expired.end(); elem++) {
_timers.erase(*elem);
}
}
ReplayConductor::ReplayConductor( orcalog::MasterFileReader &masterFileReader,
std::vector<orcalog::Replayer*> &replayers,
const IceUtil::Time &beginTime,
double replayRate,
const orcaice::Context &context )
: SubsystemThread( context.tracer(), context.status() ),
isPlaying_(false),
isPlayingOrAboutToStart_(false),
masterFileReader_(masterFileReader),
replayers_(replayers),
context_(context)
{
clock_.setReplayRate(replayRate);
bool cursorValid = masterFileReader_.getCursorTime( firstItemSec_, firstItemUsec_ );
assert( cursorValid );
// Fast-forward if non-zero beginTime
if ( beginTime > orcalog::iceUtilTime(0,0) )
{
fastForward( beginTime );
}
}
//-----------------------------------------------------------------------
void ParticleSystem::start(void)
{
// Generate the event; this must be done at the start
_pushSystemEvent(PU_EVT_SYSTEM_STARTING);
setVisible(true);
mState = ParticleSystem::PSS_STARTED;
mTimeElapsedSinceStart = 0;
mLastVisibleFrame = 0;
mTimeSinceLastVisible = 0;
mTimeSinceLastUpdate = 0;
mBoundsUpdateTime = mOriginalBoundsUpdateTime;
ParticleTechniqueIterator it;
ParticleTechniqueIterator itEnd = mTechniques.end();
mAABB.setExtents(0, 0, 0, 0, 0, 0);
mFastForwardSet = mOriginalFastForwardSet;
position = Vector3::ZERO;
mDerivedPosition = Vector3::ZERO;
latestPosition = getDerivedPosition();
mLatestOrientation = getDerivedOrientation(); // Added for 1.3 (orientation not pr)
mEnabled = true;
mStopFadeSet = false;
mAtLeastOneParticleEmitted = false;
mLastLodIndex = 0; // This triggers the event at least once if lod distances are used.
// Run through the ParticleTechniques to perform some start-initialisation actions.
for (it = mTechniques.begin(); it != itEnd; ++it)
{
(*it)->_notifyStart();
}
// Perform fast forward if needed (the fastforward() function determines whether it is needed)
fastForward();
// Generate the event; this must be done at the end
_pushSystemEvent(PU_EVT_SYSTEM_STARTED);
}
void PhMediaPanel::onFastForward()
{
if(_clock)
_clock->setRate(3);
emit fastForward();
}
Player::Player(QWidget *parent)
: QWidget(parent)
, m_position(0)
, m_isMeltedPlaying(-1)
, m_zoomToggleFactor(Settings.playerZoom() == 0.0f? 1.0f : Settings.playerZoom())
, m_pauseAfterOpen(false)
, m_monitorScreen(-1)
, m_currentTransport(0)
{
setObjectName("Player");
Mlt::Controller::singleton();
setupActions(this);
m_playIcon = actionPlay->icon();
m_pauseIcon = actionPause->icon();
// Create a layout.
QVBoxLayout *vlayout = new QVBoxLayout(this);
vlayout->setObjectName("playerLayout");
vlayout->setContentsMargins(0, 0, 0, 0);
vlayout->setSpacing(4);
// Add tab bar to indicate/select what is playing: clip, playlist, timeline.
m_tabs = new QTabBar;
m_tabs->setShape(QTabBar::RoundedSouth);
m_tabs->addTab(tr("Source"));
m_tabs->addTab(tr("Program"));
m_tabs->setTabEnabled(ProgramTabIndex, false);
QHBoxLayout* tabLayout = new QHBoxLayout;
tabLayout->addWidget(m_tabs);
tabLayout->addStretch();
connect(m_tabs, SIGNAL(tabBarClicked(int)), SLOT(onTabBarClicked(int)));
// Add the layouts for managing video view, scroll bars, and audio controls.
m_videoLayout = new QHBoxLayout;
m_videoLayout->setSpacing(4);
m_videoLayout->setContentsMargins(0, 0, 0, 0);
vlayout->addLayout(m_videoLayout, 10);
vlayout->addStretch();
m_videoScrollWidget = new QWidget;
m_videoLayout->addWidget(m_videoScrollWidget, 10);
m_videoLayout->addStretch();
QGridLayout* glayout = new QGridLayout(m_videoScrollWidget);
glayout->setSpacing(0);
glayout->setContentsMargins(0, 0, 0, 0);
// Add the video widgets.
m_videoWidget = QWidget::createWindowContainer(qobject_cast<QWindow*>(MLT.videoWidget()));
m_videoWidget->setMinimumSize(QSize(320, 180));
glayout->addWidget(m_videoWidget, 0, 0);
m_verticalScroll = new QScrollBar(Qt::Vertical);
glayout->addWidget(m_verticalScroll, 0, 1);
m_verticalScroll->hide();
m_horizontalScroll = new QScrollBar(Qt::Horizontal);
glayout->addWidget(m_horizontalScroll, 1, 0);
m_horizontalScroll->hide();
// Add the volume and signal level meter
m_volumePopup = new QFrame(this, Qt::Popup);
QVBoxLayout *volumeLayoutV = new QVBoxLayout(m_volumePopup);
volumeLayoutV->setContentsMargins(0, 0, 0, 0);
volumeLayoutV->addSpacerItem(new QSpacerItem(0, 0, QSizePolicy::Minimum, QSizePolicy::Expanding));
QBoxLayout *volumeLayoutH = new QHBoxLayout;
volumeLayoutH->setSpacing(0);
volumeLayoutH->setContentsMargins(0, 0, 0, 0);
volumeLayoutH->addWidget(new AudioScale);
m_volumeSlider = new QSlider(Qt::Vertical);
m_volumeSlider->setFocusPolicy(Qt::NoFocus);
m_volumeSlider->setMinimumHeight(VOLUME_SLIDER_HEIGHT);
m_volumeSlider->setSizePolicy(QSizePolicy::Fixed, QSizePolicy::Fixed);
volumeLayoutH->addWidget(m_volumeSlider);
volumeLayoutV->addLayout(volumeLayoutH);
m_volumeSlider->setRange(0, 99);
m_volumeSlider->setValue(Settings.playerVolume());
onVolumeChanged(m_volumeSlider->value());
m_savedVolume = MLT.volume();
m_volumeSlider->setToolTip(tr("Adjust the audio volume"));
connect(m_volumeSlider, SIGNAL(valueChanged(int)), this, SLOT(onVolumeChanged(int)));
// Add mute-volume buttons layout
#ifdef Q_OS_MAC
if (Settings.theme() == "system")
volumeLayoutH = new QVBoxLayout;
else
#endif
volumeLayoutH = new QHBoxLayout;
volumeLayoutH->setContentsMargins(0, 0, 0, 0);
volumeLayoutH->setSpacing(0);
volumeLayoutV->addLayout(volumeLayoutH);
// Add mute button
QPushButton* muteButton = new QPushButton(this);
muteButton->setFocusPolicy(Qt::NoFocus);
muteButton->setObjectName(QString::fromUtf8("muteButton"));
muteButton->setIcon(QIcon::fromTheme("dialog-cancel", QIcon(":/icons/oxygen/16x16/actions/dialog-cancel.png")));
muteButton->setToolTip(tr("Silence the audio"));
muteButton->setCheckable(true);
muteButton->setChecked(Settings.playerMuted());
onMuteButtonToggled(Settings.playerMuted());
volumeLayoutH->addWidget(muteButton);
connect(muteButton, SIGNAL(toggled(bool)), this, SLOT(onMuteButtonToggled(bool)));
// This hack realizes the volume popup geometry for on_actionVolume_triggered().
m_volumePopup->show();
m_volumePopup->hide();
// Add the scrub bar.
m_scrubber = new ScrubBar(this);
m_scrubber->setFocusPolicy(Qt::NoFocus);
m_scrubber->setObjectName("scrubBar");
m_scrubber->setSizePolicy(QSizePolicy::MinimumExpanding, QSizePolicy::Preferred);
vlayout->addWidget(m_scrubber);
// Add toolbar for transport controls.
QToolBar* toolbar = new QToolBar(tr("Transport Controls"), this);
int s = style()->pixelMetric(QStyle::PM_SmallIconSize);
toolbar->setIconSize(QSize(s, s));
toolbar->setContentsMargins(0, 0, 0, 0);
QWidget *spacer = new QWidget(this);
spacer->setSizePolicy(QSizePolicy::MinimumExpanding, QSizePolicy::Preferred);
m_positionSpinner = new TimeSpinBox(this);
m_positionSpinner->setToolTip(tr("Current position"));
m_positionSpinner->setEnabled(false);
m_positionSpinner->setKeyboardTracking(false);
m_durationLabel = new QLabel(this);
m_durationLabel->setToolTip(tr("Total Duration"));
m_durationLabel->setText(" / 00:00:00:00");
m_durationLabel->setFixedWidth(m_positionSpinner->width());
m_inPointLabel = new QLabel(this);
m_inPointLabel->setText("--:--:--:--");
m_inPointLabel->setToolTip(tr("In Point"));
m_inPointLabel->setFixedWidth(m_inPointLabel->width());
m_selectedLabel = new QLabel(this);
m_selectedLabel->setText("--:--:--:--");
m_selectedLabel->setToolTip(tr("Selected Duration"));
m_selectedLabel->setFixedWidth(m_selectedLabel->width());
toolbar->addWidget(m_positionSpinner);
toolbar->addWidget(m_durationLabel);
toolbar->addWidget(spacer);
toolbar->addAction(actionSkipPrevious);
toolbar->addAction(actionRewind);
toolbar->addAction(actionPlay);
toolbar->addAction(actionFastForward);
toolbar->addAction(actionSkipNext);
// Add zoom button to toolbar.
m_zoomButton = new QToolButton;
QMenu* zoomMenu = new QMenu(this);
m_zoomFitAction = zoomMenu->addAction(
QIcon::fromTheme("zoom-fit-best", QIcon(":/icons/oxygen/32x32/actions/zoom-fit-best")),
tr("Zoom Fit"), this, SLOT(zoomFit()));
m_zoomOriginalAction = zoomMenu->addAction(
QIcon::fromTheme("zoom-original", QIcon(":/icons/oxygen/32x32/actions/zoom-original")),
tr("Zoom 100%"), this, SLOT(zoomOriginal()));
m_zoomOutAction = zoomMenu->addAction(
QIcon::fromTheme("zoom-out", QIcon(":/icons/oxygen/32x32/actions/zoom-out")),
tr("Zoom 50%"), this, SLOT(zoomOut()));
m_zoomInAction = zoomMenu->addAction(
QIcon::fromTheme("zoom-in", QIcon(":/icons/oxygen/32x32/actions/zoom-in")),
tr("Zoom 200%"), this, SLOT(zoomIn()));
connect(m_zoomButton, SIGNAL(toggled(bool)), SLOT(toggleZoom(bool)));
m_zoomButton->setMenu(zoomMenu);
m_zoomButton->setPopupMode(QToolButton::MenuButtonPopup);
m_zoomButton->setCheckable(true);
m_zoomButton->setToolTip(tr("Toggle zoom"));
toolbar->addWidget(m_zoomButton);
toolbar->addAction(actionVolume);
m_volumeWidget = toolbar->widgetForAction(actionVolume);
// Add in-point and selected duration labels to toolbar.
spacer = new QWidget(this);
spacer->setSizePolicy(QSizePolicy::MinimumExpanding, QSizePolicy::Preferred);
toolbar->addWidget(spacer);
toolbar->addWidget(m_inPointLabel);
toolbar->addWidget(m_selectedLabel);
vlayout->addWidget(toolbar);
vlayout->addLayout(tabLayout);
connect(MLT.videoWidget(), SIGNAL(frameDisplayed(const SharedFrame&)), this, SLOT(onFrameDisplayed(const SharedFrame&)));
connect(actionPlay, SIGNAL(triggered()), this, SLOT(togglePlayPaused()));
connect(actionPause, SIGNAL(triggered()), this, SLOT(pause()));
connect(actionFastForward, SIGNAL(triggered()), this, SLOT(fastForward()));
connect(actionRewind, SIGNAL(triggered()), this, SLOT(rewind()));
connect(m_scrubber, SIGNAL(seeked(int)), this, SLOT(seek(int)));
connect(m_scrubber, SIGNAL(inChanged(int)), this, SLOT(onInChanged(int)));
connect(m_scrubber, SIGNAL(outChanged(int)), this, SLOT(onOutChanged(int)));
connect(m_positionSpinner, SIGNAL(valueChanged(int)), this, SLOT(seek(int)));
connect(m_positionSpinner, SIGNAL(editingFinished()), this, SLOT(setFocus()));
connect(this, SIGNAL(endOfStream()), this, SLOT(pause()));
connect(this, SIGNAL(zoomChanged(float)), MLT.videoWidget(), SLOT(setZoom(float)));
connect(m_horizontalScroll, SIGNAL(valueChanged(int)), MLT.videoWidget(), SLOT(setOffsetX(int)));
connect(m_verticalScroll, SIGNAL(valueChanged(int)), MLT.videoWidget(), SLOT(setOffsetY(int)));
setFocusPolicy(Qt::StrongFocus);
}
bool ComplementFile::finalizeCalculations() {
outPutLastRecordInPrevChrom();
fastForward("");
return true;
}
void
TranzportClient::readData()
{
memcpy(previousbuf, currentbuf, 8);
ssize_t val;
static timeT loop_start_time=0;
static timeT loop_end_time=0;
while ((val=read(m_descriptor,currentbuf,8)) == 8) {
uint32_t new_buttons = current_buttons ^ previous_buttons;
if (status == 0x1) {
RG_DEBUG << "TranzportClient: device just came online";
while (not commands.empty()) {
commands.pop();
}
device_online = true;
m_rgDocument = m_rgGUIApp->getDocument();
m_composition = &m_rgGUIApp->getDocument()->getComposition();
stateUpdate();
}
if (status == 0xff) {
RG_DEBUG << "TranzportClient: device just went offline";
device_online = false;
return;
}
if (new_buttons & TrackSolo and
current_buttons & TrackSolo) {
if (current_buttons & Shift) {
bool soloflag = m_composition->isSolo();
emit solo(not soloflag);
}
}
if (new_buttons & Add and
current_buttons & Add) {
if (current_buttons & Shift) {
} else {
AddMarkerCommand* cmd = new AddMarkerCommand(m_composition,
m_composition->getPosition(),
"tranzport",
"");
CommandHistory::getInstance()->addCommand(cmd);
}
}
if (new_buttons & Prev and
current_buttons & Prev) {
RG_DEBUG << "TranzportClient:: received marker previous";
if (current_buttons & Shift) {
} else {
timeT currentTime = m_composition->getPosition();
Composition::markercontainer& mc = m_composition->getMarkers();
timeT closestPrevious = -1;
for (Composition::markerconstiterator it = mc.begin();
it != mc.end();
++it) {
timeT markerTime = (*it)->getTime();
if (markerTime < currentTime and
markerTime > closestPrevious) {
closestPrevious = markerTime;
}
}
if (closestPrevious >= 0) {
RG_DEBUG << "Tranzport:: setting position: " << closestPrevious;
emit setPosition(closestPrevious);
}
}
}
if (new_buttons & Next and
current_buttons & Next)
{
RG_DEBUG << "TranzportClient:: received marker next";
if (current_buttons & Shift) {
} else {
timeT currentTime = m_composition->getPosition();
Composition::markercontainer& mc = m_composition->getMarkers();
timeT closestNext = std::numeric_limits<long>::max();
for (Composition::markerconstiterator it = mc.begin();
it != mc.end();
++it) {
timeT markerTime = (*it)->getTime();
if (markerTime > currentTime and
markerTime < closestNext) {
closestNext = markerTime;
}
}
if (closestNext < std::numeric_limits<long>::max()) {
RG_DEBUG << "Tranzport:: setting position: " << closestNext;
emit setPosition(closestNext);
}
}
}
if (new_buttons & Undo and
current_buttons & Undo) {
if (current_buttons & Shift) {
emit redo();
} else {
emit undo();
}
}
if (new_buttons & Play and
current_buttons & Play) {
if (current_buttons & Shift) {
} else {
emit play();
}
}
if (new_buttons & Stop and
current_buttons & Stop) {
if (current_buttons & Shift) {
} else {
emit stop();
}
}
if (new_buttons & Record and
current_buttons & Record) {
if (current_buttons & Shift) {
} else {
emit record();
}
}
if (new_buttons & Loop and
current_buttons & Loop) {
if (current_buttons & Shift) {
} else {
loop_start_time = m_composition->getPosition();
loop_end_time = loop_start_time;
}
}
if (new_buttons & Loop and
(not (current_buttons & Loop))) {
if (current_buttons & Shift) {
} else {
if (loop_start_time == loop_end_time) {
m_rgDocument->setLoop(0,0);
}
loop_start_time = 0;
loop_end_time = 0;
}
}
if (new_buttons& Rewind and
current_buttons & Rewind) {
if (current_buttons&Shift) {
emit rewindToBeginning();
} else {
emit rewind();
}
}
if (new_buttons & FastForward and
current_buttons & FastForward) {
if (current_buttons & Shift) {
emit fastForwardToEnd();
} else {
emit fastForward();
}
}
if (new_buttons & TrackRec and
current_buttons & TrackRec) {
if (current_buttons & Shift) {
} else {
emit trackRecord();
}
}
if (new_buttons & TrackRight and
current_buttons & TrackRight) {
if (current_buttons & Shift) {
} else {
emit trackDown();
}
}
if (new_buttons & TrackLeft and
current_buttons & TrackLeft) {
if (current_buttons& Shift) {
} else {
emit trackUp();
}
}
if (new_buttons & TrackMute and
current_buttons & TrackMute) {
if (current_buttons & Shift) {
} else {
emit trackMute();
}
}
if (datawheel) {
if (datawheel < 0x7F) {
if (current_buttons & Loop) {
loop_end_time += datawheel *
m_composition->getDurationForMusicalTime(loop_end_time, 0,1,0,0);
m_rgDocument->setLoop(loop_start_time, loop_end_time);
} else if(current_buttons & Shift) {
timeT here = m_composition->getPosition();
here += datawheel * m_composition->getDurationForMusicalTime(here,0,0,1,0);
if (here <= m_composition->getEndMarker()) {
emit setPosition(here);
}
} else {
timeT here = m_composition->getPosition();
here += datawheel * m_composition->getDurationForMusicalTime(here,0,1,0,0);
if (here <= m_composition->getEndMarker()) {
emit setPosition(here);
}
}
} else {
#define DATAWHEEL_VALUE (1 + (0xFF - (datawheel)))
if (current_buttons & Loop) {
loop_end_time -= (1 + (0xFF - datawheel)) *
m_rgGUIApp->getDocument()->getComposition().getDurationForMusicalTime(loop_end_time, 0,1,0,0);
m_rgDocument->setLoop(loop_start_time, loop_end_time);
}
if (current_buttons & Shift) {
timeT here = m_composition->getPosition();
here -= DATAWHEEL_VALUE * m_composition->getDurationForMusicalTime(here,0,0,1,0);
if (here >= m_composition->getStartMarker()) {
emit setPosition(here);
}
} else {
timeT here = m_composition->getPosition();
here -= DATAWHEEL_VALUE * m_composition->getDurationForMusicalTime(here,0,1,0,0);
if (here >= m_composition->getStartMarker()) {
emit setPosition(here);
}
}
#undef DATAWHEEL_VALUE
}
}
memcpy(previousbuf, currentbuf, 8);
}
if (val == -1) {
if (errno == EAGAIN) {
return;
} else {
RG_DEBUG << "TranzportClient::readData: error " << strerror(errno);
}
} else {
RG_DEBUG << "TranzportClient::readData: partial read of length " << val;
RG_DEBUG << "TranzportClient::readData: this should not happen " << val;
}
}
void ComplementFile::giveFinalReport(RecordOutputMgr *outputMgr) {
_outputMgr = outputMgr;
outPutLastRecordInPrevChrom();
fastForward("");
}
TranzportClient::TranzportClient(RosegardenMainWindow* rgGUIApp) :
QObject(),
device_online(true),
previous_buttons(*reinterpret_cast<uint32_t*>(previousbuf+2)),
current_buttons(*reinterpret_cast<uint32_t*>(currentbuf+2)),
datawheel(currentbuf[6]),
status(currentbuf[1]),
m_rgGUIApp(rgGUIApp),
m_rgDocument(rgGUIApp->getDocument()),
m_composition(&m_rgDocument->getComposition())
{
m_descriptor = open("/dev/tranzport0",O_RDWR);
if (m_descriptor < 0) {
throw Exception(qstrtostr(QObject::tr("Failed to open tranzport device /dev/tranzport0")));
}
bzero(currentbuf,8);
bzero(previousbuf,8);
fcntl(m_descriptor,F_SETOWN, getpid());
int socketFlags = fcntl(m_descriptor, F_GETFL, 0);
if (socketFlags != -1) {
fcntl(m_descriptor, F_SETFL, socketFlags | O_NONBLOCK);
}
m_socketReadNotifier = new QSocketNotifier(m_descriptor, QSocketNotifier::Read, 0);
m_socketWriteNotifier = new QSocketNotifier(m_descriptor, QSocketNotifier::Write,0);
connect(m_socketReadNotifier, SIGNAL(activated(int)), this, SLOT(readData()));
connect(m_socketWriteNotifier, SIGNAL(activated(int)), this, SLOT(writeCommandQueue()));
connect(this, SIGNAL(play()),
m_rgGUIApp, SLOT(slotPlay()) );
connect(this, SIGNAL(stop()),
m_rgGUIApp, SLOT(slotStop()) );
connect(this, SIGNAL(record()),
m_rgGUIApp, SLOT(slotRecord()) );
connect(this, SIGNAL(rewind()),
m_rgGUIApp, SLOT(slotRewind()) );
connect(this, SIGNAL(rewindToBeginning()),
m_rgGUIApp, SLOT(slotRewindToBeginning()) );
connect(this, SIGNAL(fastForward()),
m_rgGUIApp, SLOT(slotFastforward()) );
connect(this, SIGNAL(fastForwardToEnd()),
m_rgGUIApp, SLOT(slotFastForwardToEnd()) );
connect(this, SIGNAL(toggleRecord()),
m_rgGUIApp, SLOT(slotToggleRecord()) );
connect(this, SIGNAL(trackDown()),
m_rgGUIApp, SLOT(slotTrackDown()) );
connect(this, SIGNAL(trackUp()),
m_rgGUIApp, SLOT(slotTrackUp()) );
connect(this, SIGNAL(trackMute()),
m_rgGUIApp, SLOT(slotToggleMute()) );
connect(this, SIGNAL(trackRecord()),
m_rgGUIApp, SLOT(slotToggleRecordCurrentTrack()) );
connect(this, SIGNAL(solo(bool)),
m_rgGUIApp, SLOT(slotToggleSolo(bool)));
connect(m_rgGUIApp, SIGNAL(documentChanged(RosegardenDocument*)),
this, SLOT(documentChanged(RosegardenDocument*)));
connect(m_rgDocument, SIGNAL(pointerPositionChanged(timeT)),
this, SLOT(pointerPositionChanged(timeT)));
connect(m_rgDocument, SIGNAL(loopChanged(timeT,timeT)),
this, SLOT(loopChanged(timeT,timeT)));
connect(this, SIGNAL(undo()),
CommandHistory::getInstance(),SLOT(undo()));
connect(this, SIGNAL(redo()),
CommandHistory::getInstance(), SLOT(redo()));
connect(this, SIGNAL(setPosition(timeT)),
m_rgDocument, SLOT(slotSetPointerPosition(timeT)));
m_composition->addObserver(this);
m_socketWriteNotifier->setEnabled(false);
stateUpdate();
RG_DEBUG << "TranzportClient::TranzportClient: connected to tranzport device: " << m_descriptor << endl;
}
bool update()
{
sf::Event event;
while(window->pollEvent(event)) {
switch (event.type) {
case sf::Event::Closed:
return false;
case sf::Event::KeyPressed:
switch(event.key.code) {
case sf::Keyboard::Up:
camera.move(0,-1);
break;
case sf::Keyboard::Down:
camera.move(0,1);
std::cout << camera.getCenter().x;
break;
case sf::Keyboard::Left:
camera.move(-1,0);
break;
case sf::Keyboard::Right:
camera.move(1,0);
break;
case sf::Keyboard::F1:
for(int i = 0; i<10; i++) {
updateCreatures();
}
break;
case sf::Keyboard::F2:
for(int i = 0; i<100; i++) {
updateCreatures();
}
break;
case sf::Keyboard::F3:
fastForward(10);
break;
case sf::Keyboard::F4:
fastForward(50);
break;
}
break;
case sf::Event::MouseMoved:
if(sf::Mouse::isButtonPressed(sf::Mouse::Button::Left)) {
camera.move(mousepos-window->mapPixelToCoords(sf::Mouse::getPosition(),camera));
}
mousepos = window->mapPixelToCoords(sf::Mouse::getPosition(),camera);
break;
case sf::Event::MouseWheelMoved:
if(event.mouseWheel.delta>0) {
camera.zoom(1.15);
} else if(event.mouseWheel.delta<0) {
camera.zoom(0.85);
}
break;
case sf::Event::MouseButtonPressed:
if(mouseclock.getElapsedTime().asMilliseconds()<333) {
auto center = window->mapPixelToCoords(sf::Vector2i(event.mouseButton.x,event.mouseButton.y),camera);
camera.setCenter(center);
camera.setSize(sf::Vector2f(SCREEN_W,SCREEN_H));
}
prev_click = mouseclock.restart();
break;
}
}
double ftest = 0;
avg = 0;
for(auto& creature: creatures) {
creature->foodPool(food);
creature->update();
for(auto fd = food.begin(); fd<food.end(); fd++) {
if(distance(creature->getPos(),*fd)<15) {
fd = food.erase(fd);
creature->increaseFitness(1.f);
}
}
avg += creature->getFitness();
if(creature->getFitness()>ftest) {
ftest = creature->getFitness();
}
}
pavg = avg;
avg = avg/creatures.size();
if(avg>bestavg) {
best_so_far = vpop->getPopulationRef();
} else if(avg < bestavg*0.85) {
vpop->revertPopulation(best_so_far);
}
while(food.size()<FOOD_CAP) {
food.push_back(sf::Vector2f(20 + rand() % (AREA_W-40), 10 + rand() % (AREA_H-20)));
}
if(counter>1) {
counter--;
} else {
updateCreatures();
counter = 60*evolution_rate;
std::cout << "Generation: " << gen++;
std::cout << " fittest: " << ftest;
std::cout << " average: " << avg << std::endl;
}
return true;
}
int sidplay2::fastForward (uint percent)
{ return sidplayer.fastForward (percent); }
void LircCommander::slotExecute(const char *command)
{
struct command tmp, *res;
RG_DEBUG << "LircCommander::slotExecute: invoking command: " << command;
// find the function for the name
tmp.name = command;
res = (struct command *)bsearch(&tmp, commands,
sizeof(commands) / sizeof(struct command),
sizeof(struct command),
compareCommandName);
if (res != NULL)
{
switch (res->code)
{
case cmd_play:
emit play();
break;
case cmd_stop:
emit stop();
break;
case cmd_record:
emit record();
break;
case cmd_rewind:
emit rewind();
break;
case cmd_rewindToBeginning:
emit rewindToBeginning();
break;
case cmd_fastForward:
emit fastForward();
break;
case cmd_fastForwardToEnd:
emit fastForwardToEnd();
break;
case cmd_toggleRecord:
emit toggleRecord();
break;
case cmd_trackDown:
emit trackDown();
break;
case cmd_trackUp:
emit trackUp();
break;
case cmd_trackMute:
emit trackMute();
break;
case cmd_trackRecord:
emit trackRecord();
break;
case cmd_undo:
emit undo();
break;
case cmd_redo:
emit redo();
break;
case cmd_aboutrg:
emit aboutrg();
break;
case cmd_editInEventList:
emit editInEventList();
break;
case cmd_editInMatrix:
emit editInMatrix();
break;
case cmd_editInPercussionMatrix:
emit editInPercussionMatrix();
break;
case cmd_editAsNotation:
emit editAsNotation();
break;
case cmd_quit:
emit quit();
break;
case cmd_closeTransport:
emit closeTransport();
break;
case cmd_toggleTransportVisibility:
emit toggleTransportVisibility();
break;
default:
RG_DEBUG << "LircCommander::slotExecute: unhandled command " << command;
return;
}
RG_DEBUG << "LircCommander::slotExecute: handled command: " << command;
}
else
{
RG_DEBUG << "LircCommander::slotExecute: invoking command: " << command
<< " failed (command not defined in LircCommander::commands[])" << endl;
};
}
