void QLCCapability_Test::name()
{
QLCCapability cap;
QVERIFY(cap.name().isEmpty());
cap.setName("Foobar");
QVERIFY(cap.name() == "Foobar");
}
void ConsoleChannel::initCapabilityMenu(const QLCChannel* ch)
{
QLCCapability* cap;
QMenu* valueMenu;
QAction* action;
QString s;
QString t;
QListIterator <QLCCapability*> it(ch->capabilities());
while (it.hasNext() == true)
{
cap = it.next();
// Set the value range and name as the menu item's name
s = QString("%1: %2 - %3").arg(cap->name())
.arg(cap->min()).arg(cap->max());
if (cap->max() - cap->min() > 0)
{
// Create submenu for ranges of more than one value
valueMenu = new QMenu(m_menu);
valueMenu->setTitle(s);
/* Add a color icon */
if (ch->group() == QLCChannel::Colour)
valueMenu->setIcon(colorIcon(cap->name()));
for (int i = cap->min(); i <= cap->max(); i++)
{
action = valueMenu->addAction(
t.sprintf("%.3d", i));
action->setData(i);
}
m_menu->addMenu(valueMenu);
}
else
{
// Just one value in this range, put that into the menu
action = m_menu->addAction(s);
action->setData(cap->min());
/* Add a color icon */
if (ch->group() == QLCChannel::Colour)
action->setIcon(colorIcon(cap->name()));
}
}
// Connect menu item activation signal to this
connect(m_menu, SIGNAL(triggered(QAction*)),
this, SLOT(slotContextMenuTriggered(QAction*)));
// Set the menu also as the preset button's popup menu
m_presetButton->setMenu(m_menu);
}
QLCCapability* QLCChannel::searchCapability(const QString& name,
bool exactMatch) const
{
QListIterator <QLCCapability*> it(m_capabilities);
while (it.hasNext() == true)
{
QLCCapability* capability = it.next();
if (exactMatch == true && capability->name() == name)
return capability;
else if (exactMatch == false &&
capability->name().contains(name) == true)
return capability;
}
return NULL;
}
void QLCFixtureEditor::updateChannelItem(const QLCChannel* channel, QTreeWidgetItem* item)
{
QString str;
Q_ASSERT(channel != NULL);
Q_ASSERT(item != NULL);
item->setText(CH_COL_NAME, channel->name());
item->setIcon(CH_COL_NAME, channel->getIcon());
item->setText(CH_COL_GRP, QLCChannel::groupToString(channel->group()));
item->setData(CH_COL_NAME, PROP_PTR, (qulonglong) channel);
/* Destroy the existing list of children */
QList <QTreeWidgetItem*> children(item->takeChildren());
foreach (QTreeWidgetItem* child, children)
delete child;
/* Put all capabilities as non-selectable sub items */
QListIterator <QLCCapability*> capit(channel->capabilities());
while (capit.hasNext() == true)
{
QLCCapability* cap = capit.next();
Q_ASSERT(cap != NULL);
QTreeWidgetItem* capitem = new QTreeWidgetItem(item);
capitem->setText(CH_COL_NAME,
QString("[%1-%2]: %3").arg(cap->min())
.arg(cap->max()).arg(cap->name()));
capitem->setFlags(0); /* No selection etc. */
}
}
void EditChannel::refreshCapabilities()
{
QPtrListIterator<QLCCapability> it(*m_channel->capabilities());
QLCCapability* cap = NULL;
QListViewItem* item = NULL;
QString str;
m_capabilityList->clear();
/* Fill capabilities */
while ( (cap = it.current()) != 0)
{
++it;
item = new QListViewItem(m_capabilityList);
// Min
str.sprintf("%.3d", cap->min());
item->setText(KColumnMin, str);
// Max
str.sprintf("%.3d", cap->max());
item->setText(KColumnMax, str);
// Name
item->setText(KColumnName, cap->name());
// Store the capability pointer to the listview as a string
str.sprintf("%d", (unsigned long) cap);
item->setText(KColumnPointer, str);
}
slotCapabilityListSelectionChanged(m_capabilityList->currentItem());
}
void QLCCapability_Test::initial()
{
QLCCapability cap;
QVERIFY(cap.min() == 0);
QVERIFY(cap.max() == UCHAR_MAX);
QVERIFY(cap.name().isEmpty());
}
void CapabilityWizard::slotCreateCapabilities()
{
int start = m_startSpin->value();
int gap = m_gapSpin->value();
int amount = m_amountSpin->value();
QString name = m_nameEdit->text();
t_value min = start;
t_value max = min + gap;
QLCCapability* cap;
/* Destroy existing capabilities */
foreach (QLCCapability* cap, m_caps)
delete cap;
m_caps.clear();
/* Create new capabilities */
for (int i = 0; i < amount; i++)
{
/* Create a name with the optional hash mark */
QString modname(name);
modname.replace("#", QString("%1").arg(i + 1));
/* Create a new capability and add it to our list */
cap = new QLCCapability(min, max, modname);
m_caps << cap;
/* Bail out when the maximum DMX value has been reached */
if (max == 255)
break;
/* Increment for the next round */
min = max + 1;
max = min + gap;
/* Bail out if next round would overflow */
if (max < min)
break;
}
/* Replace capabilities in the list widget */
m_list->clear();
foreach (cap, m_caps)
{
QListWidgetItem* item;
item = new QListWidgetItem(m_list);
item->setText(QString("[%1 - %2] %3").arg(cap->min())
.arg(cap->max()).arg(cap->name()));
if (m_channel->searchCapability(cap->min()) != NULL ||
m_channel->searchCapability(cap->max()) != NULL)
{
/* Disable the item to indicate overlapping */
item->setFlags(0);
}
}
QLCCapability* QLCChannel::searchCapability(QString name) const
{
QListIterator <QLCCapability*> it(m_capabilities);
while (it.hasNext() == true)
{
QLCCapability* capability = it.next();
if (capability->name() == name)
return capability;
}
return NULL;
}
void FixtureManager::slotAutoFunction()
{
#if 0
QTreeWidgetItem* item;
t_fixture_id fxi_id;
Fixture* fxi;
item = m_tree->currentItem();
if (item == NULL)
return;
fxi_id = item->text(KColumnID).toInt();
fxi = _app->doc()->fixture(fxi_id);
Q_ASSERT(fxi != NULL);
// Loop over all channels
for (int i = 0; i < fxi->channels(); i++)
{
QLCChannel* channel = fxi->channel(i);
Q_ASSERT(channel != NULL);
QListIterator <QLCCapability*>
cap_it(*channel->capabilities());
// Loop over all capabilities
while (cap_it.hasNext() == true)
{
QLCCapability* cap = cap_it.next();
Q_ASSERT(cap != NULL);
Scene* sc = static_cast<Scene*>
(_app->doc()->newFunction(Function::Scene,
fxi_id));
sc->setName(channel->name() + " - " + cap->name());
// Set the unused channels to NoSet and zero.
for (int j = 0; j < fxi->channels(); j++)
sc->set(j, 0, Scene::NoSet);
// Set only the capability
sc->set(i, (t_value) ((cap->min() + cap->max()) / 2),
Scene::Set);
}
}
#endif
}
void QLCCapability_Test::loadNoMax()
{
QDomDocument doc;
QDomElement root = doc.createElement("Capability");
doc.appendChild(root);
root.setAttribute("Min", 13);
QDomText name = doc.createTextNode("Test1");
root.appendChild(name);
QLCCapability cap;
QVERIFY(cap.loadXML(root) == false);
QVERIFY(cap.name().isEmpty());
QVERIFY(cap.min() == 0);
QVERIFY(cap.max() == UCHAR_MAX);
}
void QLCCapability_Test::load()
{
QDomDocument doc;
QDomElement root = doc.createElement("Capability");
doc.appendChild(root);
root.setAttribute("Min", 13);
root.setAttribute("Max", 19);
QDomText name = doc.createTextNode("Test1");
root.appendChild(name);
QLCCapability cap;
QVERIFY(cap.loadXML(root) == true);
QVERIFY(cap.name() == "Test1");
QVERIFY(cap.min() == 13);
QVERIFY(cap.max() == 19);
}
void EditChannel::refreshCapabilities()
{
QListIterator <QLCCapability*> it(*m_channel->capabilities());
QLCCapability* cap = NULL;
QTreeWidgetItem* item = NULL;
QString str;
m_capabilityList->clear();
/* Fill capabilities */
while (it.hasNext() == true)
{
cap = it.next();
item = new QTreeWidgetItem(m_capabilityList);
// Min
str.sprintf("%.3d", cap->min());
item->setText(KColumnMin, str);
// Max
str.sprintf("%.3d", cap->max());
item->setText(KColumnMax, str);
// Name
item->setText(KColumnName, cap->name());
// Store the capability pointer to the listview as a string
str.sprintf("%lu", (unsigned long) cap);
item->setText(KColumnPointer, str);
}
m_capabilityList->sortItems(KColumnMin, Qt::AscendingOrder);
slotCapabilityListSelectionChanged(m_capabilityList->currentItem());
}