本文整理汇总了C++中QLCPhysical::focusPanMax方法的典型用法代码示例。如果您正苦于以下问题:C++ QLCPhysical::focusPanMax方法的具体用法?C++ QLCPhysical::focusPanMax怎么用?C++ QLCPhysical::focusPanMax使用的例子?那么, 这里精选的方法代码示例或许可以为您提供帮助。您也可以进一步了解该方法所在类QLCPhysical的用法示例。
在下文中一共展示了QLCPhysical::focusPanMax方法的5个代码示例,这些例子默认根据受欢迎程度排序。您可以为喜欢或者感觉有用的代码点赞,您的评价将有助于系统推荐出更棒的C++代码示例。
示例1: copy
void QLCPhysical_Test::copy()
{
QLCPhysical c = p;
QVERIFY(c.bulbType() == p.bulbType());
QVERIFY(c.bulbLumens() == p.bulbLumens());
QVERIFY(c.bulbColourTemperature() == p.bulbColourTemperature());
QVERIFY(c.weight() == p.weight());
QVERIFY(c.width() == p.width());
QVERIFY(c.height() == p.height());
QVERIFY(c.depth() == p.depth());
QVERIFY(c.lensName() == p.lensName());
QVERIFY(c.lensDegreesMin() == p.lensDegreesMin());
QVERIFY(c.lensDegreesMax() == p.lensDegreesMax());
QVERIFY(c.focusType() == p.focusType());
QVERIFY(c.focusPanMax() == p.focusPanMax());
QVERIFY(c.focusTiltMax() == p.focusTiltMax());
}示例2: init
void EditMode::init()
{
QString str;
QLCPhysical physical = m_mode->physical();
/* Channel buttons */
m_addChannelButton->setIconSet(QPixmap(QString(PIXMAPS) +
QString("/edit_add.png")));
m_removeChannelButton->setIconSet(QPixmap(QString(PIXMAPS) +
QString("/edit_remove.png")));
m_raiseChannelButton->setIconSet(QPixmap(QString(PIXMAPS) +
QString("/up.png")));
m_lowerChannelButton->setIconSet(QPixmap(QString(PIXMAPS) +
QString("/down.png")));
/* Mode name */
m_modeNameEdit->setText(m_mode->name());
/* Channels */
refreshChannelList();
/* Physical properties */
m_bulbTypeCombo->setCurrentText(physical.bulbType());
m_bulbLumensSpin->setValue(physical.bulbLumens());
str.sprintf("%d", physical.bulbColourTemperature());
m_bulbTempCombo->setCurrentText(str);
m_weightSpin->setValue(physical.weight());
m_widthSpin->setValue(physical.width());
m_heightSpin->setValue(physical.height());
m_depthSpin->setValue(physical.depth());
m_lensNameCombo->setCurrentText(physical.lensName());
m_lensMinDegreesSpin->setValue(physical.lensDegreesMin());
m_lensMaxDegreesSpin->setValue(physical.lensDegreesMax());
m_focusTypeCombo->setCurrentText(physical.focusType());
m_panMaxSpin->setValue(physical.focusPanMax());
m_tiltMaxSpin->setValue(physical.focusTiltMax());
}示例3: init
void EditMode::init()
{
QString str;
QLCPhysical physical = m_mode->physical();
/* Channels page */
connect(m_addChannelButton, SIGNAL(clicked()),
this, SLOT(slotAddChannelClicked()));
connect(m_removeChannelButton, SIGNAL(clicked()),
this, SLOT(slotRemoveChannelClicked()));
connect(m_raiseChannelButton, SIGNAL(clicked()),
this, SLOT(slotRaiseChannelClicked()));
connect(m_lowerChannelButton, SIGNAL(clicked()),
this, SLOT(slotLowerChannelClicked()));
m_modeNameEdit->setText(m_mode->name());
m_channelList->header()->setResizeMode(QHeaderView::ResizeToContents);
refreshChannelList();
/* Physical page */
m_bulbTypeCombo->setEditText(physical.bulbType());
m_bulbLumensSpin->setValue(physical.bulbLumens());
m_bulbTempCombo->setEditText(str.setNum(physical.bulbColourTemperature()));
m_weightSpin->setValue(physical.weight());
m_widthSpin->setValue(physical.width());
m_heightSpin->setValue(physical.height());
m_depthSpin->setValue(physical.depth());
m_lensNameCombo->setEditText(physical.lensName());
m_lensDegreesMinSpin->setValue(physical.lensDegreesMin());
m_lensDegreesMaxSpin->setValue(physical.lensDegreesMax());
m_focusTypeCombo->setEditText(physical.focusType());
m_panMaxSpin->setValue(physical.focusPanMax());
m_tiltMaxSpin->setValue(physical.focusTiltMax());
m_powerConsumptionSpin->setValue(physical.powerConsumption());
m_dmxConnectorCombo->setEditText(physical.dmxConnector());
}示例4: status
//.........这里部分代码省略.........
dipTable += "<TD COLSPAN='3'><IMG SRC=\"" ":/ds_on.png\"></TD>";
}
dipTable += "<TD><IMG SRC=\"" ":/ds_border.png\"></TD></TR>";
dipTable += "<TR><TD COLSPAN='33'><IMG SRC=\"" ":/ds_bottom.png\"></TD></TR>";
dipTable += "</TABLE>";
info += genInfo.arg(tr("Binary Address (DIP)"))
.arg(QString("%1").arg(dipTable));
/********************************************************************
* Channels
********************************************************************/
// Title row
info += QString("<TR><TD CLASS='subhi'>%1</TD>").arg(tr("Channel"));
info += QString("<TD CLASS='subhi'>%1</TD>").arg(tr("DMX"));
info += QString("<TD CLASS='subhi'>%1</TD></TR>").arg(tr("Name"));
// Fill table with the fixture's channels
for (quint32 ch = 0; ch < channels(); ch++)
{
QString chInfo("<TR><TD>%1</TD><TD>%2</TD><TD>%3</TD></TR>");
info += chInfo.arg(ch + 1).arg(address() + ch + 1)
.arg(channel(ch)->name());
}
/********************************************************************
* Extended device information for non-dimmers
********************************************************************/
if (isDimmer() == false)
{
QLCPhysical physical = m_fixtureMode->physical();
info += title.arg(tr("Physical"));
float mmInch = 0.0393700787;
float kgLbs = 2.20462262;
QString mm("%1mm (%2\")");
QString kg("%1kg (%2 lbs)");
QString W("%1W");
info += genInfo.arg(tr("Width")).arg(mm.arg(physical.width()))
.arg(physical.width() * mmInch, 0, 'g', 4);
info += genInfo.arg(tr("Height")).arg(mm.arg(physical.height()))
.arg(physical.height() * mmInch, 0, 'g', 4);
info += genInfo.arg(tr("Depth")).arg(mm.arg(physical.depth()))
.arg(physical.depth() * mmInch, 0, 'g', 4);
info += genInfo.arg(tr("Weight")).arg(kg.arg(physical.weight()))
.arg(physical.weight() * kgLbs, 0, 'g', 4);
info += genInfo.arg(tr("Power consumption")).arg(W.arg(physical.powerConsumption()));
info += genInfo.arg(tr("DMX Connector")).arg(physical.dmxConnector());
// Bulb
QString K("%1K");
QString lm("%1lm");
info += subTitle.arg(tr("Bulb"));
info += genInfo.arg(tr("Type")).arg(physical.bulbType());
info += genInfo.arg(tr("Luminous Flux")).arg(lm.arg(physical.bulbLumens()));
info += genInfo.arg(tr("Colour Temperature")).arg(K.arg(physical.bulbColourTemperature()));
// Lens
QString angle1("%1°");
QString angle2("%1° – %2°");
info += subTitle.arg(tr("Lens"));
info += genInfo.arg(tr("Name")).arg(physical.lensName());
if (physical.lensDegreesMin() == physical.lensDegreesMax())
{
info += genInfo.arg(tr("Beam Angle"))
.arg(angle1.arg(physical.lensDegreesMin()));
}
else
{
info += genInfo.arg(tr("Beam Angle"))
.arg(angle2.arg(physical.lensDegreesMin())
.arg(physical.lensDegreesMax()));
}
// Focus
QString range("%1°");
info += subTitle.arg(tr("Focus"));
info += genInfo.arg(tr("Type")).arg(physical.focusType());
info += genInfo.arg(tr("Pan Range")).arg(range.arg(physical.focusPanMax()));
info += genInfo.arg(tr("Tilt Range")).arg(range.arg(physical.focusTiltMax()));
}
// HTML document & table closure
info += "</TABLE>";
if (isDimmer() == false)
{
info += "<HR>";
info += "<DIV CLASS='author' ALIGN='right'>";
info += tr("Fixture definition author: ") + fixtureDef()->author();
info += "</DIV>";
}
return info;
}示例5: qDebug
void MainView2D::createFixtureItem(quint32 fxID, quint16 headIndex, quint16 linkedIndex,
QVector3D pos, bool mmCoords)
{
if (isEnabled() == false)
return;
if (m_gridItem == NULL)
initialize2DProperties();
qDebug() << "[MainView2D] Creating fixture with ID" << fxID << headIndex << linkedIndex << "pos:" << pos;
Fixture *fixture = m_doc->fixture(fxID);
if (fixture == NULL)
return;
quint32 itemID = FixtureUtils::fixtureItemID(fxID, headIndex, linkedIndex);
QLCFixtureMode *fxMode = fixture->fixtureMode();
QQuickItem *newFixtureItem = qobject_cast<QQuickItem*>(fixtureComponent->create());
quint32 itemFlags = m_monProps->fixtureFlags(fxID, headIndex, linkedIndex);
newFixtureItem->setParentItem(m_gridItem);
newFixtureItem->setProperty("itemID", itemID);
if (itemFlags & MonitorProperties::HiddenFlag)
newFixtureItem->setProperty("visible", false);
if (fxMode != NULL && fixture->type() != QLCFixtureDef::Dimmer)
{
QLCPhysical phy = fxMode->physical();
//qDebug() << "Current mode fixture heads:" << fxMode->heads().count();
newFixtureItem->setProperty("headsNumber", fxMode->heads().count());
if (fixture->channelNumber(QLCChannel::Pan, QLCChannel::MSB) != QLCChannel::invalid())
{
int panDeg = phy.focusPanMax();
if (panDeg == 0) panDeg = 360;
newFixtureItem->setProperty("panMaxDegrees", panDeg);
}
if (fixture->channelNumber(QLCChannel::Tilt, QLCChannel::MSB) != QLCChannel::invalid())
{
int tiltDeg = phy.focusTiltMax();
if (tiltDeg == 0) tiltDeg = 270;
newFixtureItem->setProperty("tiltMaxDegrees", tiltDeg);
}
}
QPointF itemPos;
QSizeF size = FixtureUtils::item2DDimension(fixture->type() == QLCFixtureDef::Dimmer ? NULL : fxMode,
m_monProps->pointOfView());
if (mmCoords == false && (pos.x() != 0 || pos.y() != 0))
{
float gridUnits = m_monProps->gridUnits() == MonitorProperties::Meters ? 1000.0 : 304.8;
itemPos.setX((pos.x() * gridUnits) / m_cellPixels);
itemPos.setY((pos.y() * gridUnits) / m_cellPixels);
}
if (m_monProps->containsItem(fxID, headIndex, linkedIndex))
{
itemPos = FixtureUtils::item2DPosition(m_monProps, m_monProps->pointOfView(), pos);
newFixtureItem->setProperty("rotation",
FixtureUtils::item2DRotation(m_monProps->pointOfView(),
m_monProps->fixtureRotation(fxID, headIndex, linkedIndex)));
}
else
{
itemPos = FixtureUtils::available2DPosition(m_doc, m_monProps->pointOfView(),
QRectF(itemPos.x(), itemPos.y(), size.width(), size.height()));
// add the new fixture to the Doc monitor properties
QVector3D newPos = FixtureUtils::item3DPosition(m_monProps, itemPos, 1000.0);
m_monProps->setFixturePosition(fxID, headIndex, linkedIndex, newPos);
m_monProps->setFixtureFlags(fxID, headIndex, linkedIndex, 0);
Tardis::instance()->enqueueAction(Tardis::FixtureSetPosition, itemID, QVariant(QVector3D(0, 0, 0)), QVariant(newPos));
}
newFixtureItem->setProperty("mmXPos", itemPos.x());
newFixtureItem->setProperty("mmYPos", itemPos.y());
newFixtureItem->setProperty("mmWidth", size.width());
newFixtureItem->setProperty("mmHeight", size.height());
newFixtureItem->setProperty("fixtureName", fixture->name());
// and finally add the new item to the items map
m_itemsMap[itemID] = newFixtureItem;
QByteArray values;
updateFixture(fixture, values);
}