I have a widget which can contain one or more QTableView child widgets. By default, when I select a range in one of QTableViews and hit crtl+c only the leftmost uppermost cell gets copied to the clipboard. I would like to copy the entire range, so I implemented a copy() slot which does the job. I would like the copy slot to be accessible both from a context menu (when the user makes a selection and right clics the corresponding QTableView) and by the ctrl+c shortcut.
class Widget
{
Q_OBJECT
public:
void setupContextMenu();
private:
QMenu* contextMenu_;
QAction* copyAction_;
QTableView* tableView_;
private slots:
void copy();
}
void Widget::setupContextMenu()
{
contextMenu_ = new QMenu(this);
copyAction_ = contextMenu_->addAction("&Copy");
copyAction_->setShortcut(QKeySequence::Copy);
connect(copyAction_, SIGNAL(triggered()),
this, SLOT(copy()));
}
When I select a range and right click, the appropriate context menu pops up and it even contains the name of the shortcut. When I click the "Copy" action in the context menu, the copy() slot gets executed. However the ctrl+c shortcut just copies only the leftmost uppermost cell in the selection as before. Also, the copy() slot does not get executed.
How can I repair this?
I am not sure but maybe shortcut key doesn't work with contextual menus in Qt?
The handling of copy shortcut happens in QAbstractItemView::keyPressEvent(). You can install an event filter to your QTableView watching for KeyPress event and handle your copy there.
Related
I have two separate threads.
First thread for GUI, and second for application data.
Initially, I wanted to use QUndoStack and QUndoView.
But there was a problem - this view works directly with the stack:
https://code.woboq.org/qt5/qtbase/src/widgets/util/qundoview.cpp.html#_ZN10QUndoModel20setStackCurrentIndexERK11QModelIndex
In this case I got race condition.
To solve this problem I wrote custom myUndoView using QListView and QAbstractListModel.
Now all my slots using queued connections and I store a lightweight copy of the "real" undo stack in the custom view model.
This is same size and same order of the "real" undo stack elements.
A lightweight element contains only type of the undo command and text.
Now I have another problem. I'm not blame for this ))
I have a QLineEdit that emits signal on value changed when I click Enter key or lost focus.
This value in turn is sent to object (app model) with "real" undo stack. It works.
But this does not work when I interact with undo view too.
Repeat, I'm not blame for this. QUndoView has the same behavior.
Step by step:
QLineEdit in focus.
Changing value, still in focus.
Click the mouse in the undo view.
Oops.. currentIndexChanged() signal from undo view can be sent first,
or signal from QLineEdit can be sent first.
It always differs ..
If signal from QLineEdit was sent first - it works correctly.
The history of changes not lost.
I want to make enter/blur and other changes (not in history view) always invoked first. Probably I can use QTimer::singleShot() for delay of emit undo view signals . But not curentIndexChanged() because this signal emit with user interactions and when undo stack updated programmatically. We can not determine who make changes - user or application.
What I tried?
Intercept mouse clicks:
myUndoView::mousePressEvent(QMouseEvent *event)
{
event->ignore();
qDebug() << "catched!";
}
But sometimes it loses the clicks.
At the bottom of the list item (under the letters) is an area that pass a click to the item.
This may be a Qt bug, found in my environment: Debian, Mate, GTK+ Qt-style.
I think, I can place another transparent widget over list, and get coordinates of the click and use it:
http://doc.qt.io/qt-5/qabstractitemview.html#indexAt
to get the selected index.
Or I make all wrong?
Maybe there is an easier way?
How to make it right?
I would try blocking the list model signals while the line edit is focused.
Let's have an event filter like this:
class EventFilter : public QObject
{
Q_OBJECT
public:
EventFilter(QObject * model) : _model(model){}
bool eventFilter(QObject *watched, QEvent *event);
private:
QObject * _model;
};
which keeps a private reference to the list model as a pointer to QObject, passed in constructor argument.
The filter implementation:
bool EventFilter::eventFilter(QObject *watched, QEvent *event)
{
if(event->type() == QEvent::FocusIn)
{
_model->blockSignals(true);
}
return false;
}
Keep a reference to an instance of the filter in the window class (Form, in my example), along with the list model instance reference:
private:
EventFilter * filter;
QAbstractListModel * model;
The filter has to be instantiated and installed in line edit, in Form constructor (don't forget to delete it in the destructor):
filter = new EventFilter(model); //the model is passed to the filter in construction
ui->lineEdit->installEventFilter(filter);
At this point, model events will be blocked when the line edit gets focus. To unlock them, use the line edit editingFinished slot:
void Form::on_lineEdit_editingFinished()
{
model->blockSignals(false);
}
I use a QWidgetAction to add a header to a context menu (that will also show up on Windows, no matter what style is used, in contrast to addSection(), which does not always actually display the title).
The action's widget is a QLabel. It's text is changed by each invocation of the context menu. The menu is setup in the constructor of my class, and the QWidgetAction is added like so (all m_ variables are member variables declared in the header):
m_contextMenu = new QMenu(this);
m_menuTitle = new QLabel;
m_menuTitle->setAlignment(Qt::AlignCenter);
m_menuTitle->setMargin(4);
QWidgetAction *titleAction = new QWidgetAction(m_contextMenu);
titleAction->setDefaultWidget(m_menuTitle);
m_contextMenu->addAction(titleAction);
m_contextMenu->addSeparator();
When the menu is requested, the text of the label is changed and the menu is displayed like so:
m_menuTitle->setText(tr("%1 „%2“").arg(some_variable, some_other_variable));
...
m_contextMenu->exec(place_to_display);
When the label's text is set for the first time (with a short text the label's text is set to), everything is fine:
but when it's set to some longer text, the size remains the same and the text is cropped:
I tried to fix this, but the only working solution I found was to define the QActions displayed in the menu in the constructor, owned by this, setting the label's text, clearing the menu and adding the actions again, like so:
m_contextMenu->clear();
m_menuTitle->setText(tr("%1 „%2“").arg(some_variable, some_other_variable));
m_contextMenu->addAction(m_menuTitleAction);
m_contextMenu->addSeparator();
m_contextMenu->addAction(m_editAction);
m_contextMenu->addAction(m_deleteAction);
m_contextMenu->exec(place_to_display);
Is there a way to resize the title without rebuilding the menu each time?
The solution is to send a resize event instead:
m_menuTitle->setText(tr("%1 „%2“").arg(some_variable, some_other_variable));
...
QResizeEvent re(new_size, m_contextMenu->size());
qApp->sendEvent(m_contextMenu, &re);
This will set the QMenu's internal itemsDirty flag and will force geometry recalculation when the menu is shown. Note that the new size in the event does not matter, as the menu will aways resize based on its sizeHint()!
The QResizeEvent solution didn't really work for me (with a more complex widget), I found the generic solution by reading the QMenu and QAction source code.
m_widget->installEventFilter(this);
// and in my case m_widget->layout()->setSizeConstraint(QLayout::SetFixedSize);
bool SomeClass::eventFilter(QObject* watched, QEvent* event)
{
if (watched == m_widget && event->type() == QEvent::Resize) {
// Force QMenu to recalculate the geometry of this item
QActionEvent e(QEvent::ActionChanged, this);
qApp->sendEvent(m_contextMenu, &e);
}
...
}
QActionEvent triggers everything we need in QMenu: recalculating geometries, resizing the menu to its new size (if it's visible), etc.
This answer extends user362515's answer.
There is little more effort required if you change the size of a hidden widget action (e.g., because of its menu is currently collapsed).
Create a new class ActionWidget which derives publicly from QWidget.
Then override the showEvent method and implement it like this:
void ActionWidget::showEvent(QShowEvent* event)
{
QResizeEvent resize_event(QSize(), parentWidget()->size());
parentWidget()->adjustSize();
qApp->sendEvent(parentWidget(), &resize_event);
QWidget::showEvent(event);
}
Notice that adjustSize must be called on the parent widget of the action widget and the event must be sent to the parent widget.
Of course, you must also reimplement QWidgetAction::createWidget such that it returns an instance of the ActionWidget-class and make sure that ActionWidget reports a proper (updated) size hint.
I have created Qt GUI application. It consists of QGraphicsScene, and items (QGraphicsItems) are added to them by pressing or triggering pushbuttons. Each item added to the scene are members of different classes derived from QGraphicsItem. Now, my challenge is to delete an added item off the scene through one of the following mechanisms:
1) Right click an added item, create a context menu, and then use
scene->removeItem(addedItem);
2) Double click the item which deletes the item
3) Select an item using the flag ItemIsSelectable, and then delete the item by pressing the delete key on the keyboard
But having said that, as a newbie to Qt, I'm unable to do number 1 since the context menu doesn't show up when right clicked. In the case of number 2, I used signals and slots, a single emitted whenever an item is double clicked, and a slot in the mainWindow absorbs the signal and removes the item. But this way, the programs fails to compile because of the error "duplicate symbol found" when I add a Q_OBJECT macro to the header file of the item's class.
So my final option is to select an item on the screen and propane the keyboard signal to delete the item by pressing delete. How can be this done? Please give me advice if any of the above methods can be easily done in case I might be doing it completely wrong.
P.S. : I know there a lot of queries regarding deleting QGraphicsItem off QGraphicsScene, but none of them document a solid answer.
... I'm unable to do number 1 since the context menu doesn't show up when right clicked.
There are two possible methods to accomplish this:
Create a QWidget based menu, attached to the QGraphicsView.
Create your own menu item, derived from a QGraphicsItem.
Whilst the 2nd method will take more time, it's probably a better system in my opinion, as it will feel more integrated with the item you're deleting in the scene. The first method is also possible and if it's not working, then you could post an example question on SO.
2, I used signals and slots, ... because of the error "duplicate symbol found" when I add a Q_OBJECT macro to the header file
It sounds like you're trying to add the signal / slot functionality to a class derived from QGraphicsItem. You don't need to do this. Qt provides the QGraphicsObject class, which you can derive from, instead of QGraphicsItem, if you want signals and slots on items in a QGraphicsScene.
propane the keyboard signal to delete the item by pressing delete.
I assume you mean to 'propagate' keyboard signals. By overriding the QGraphicsScene and its keyPressEvent or keyReleaseEvent, you can get a list of selected items and delete them from the scene. Here's a skeleton example: -
class MyScene : public QGraphicsScene
{
protected:
void keyReleaseEvent(QKeyEvent * keyEvent);
};
void MyScene::keyReleaseEvent(QKeyEvent * keyEvent)
{
if(keyEvent->key() == Qt::Key_Backspace)
{
QList<QGraphicsItem*> selectedItems = selectedItems(); // get list of selected items
foreach(QGraphicsItem* item, selectedItems)
{
removeItem(item);
delete item;
}
}
}
You're seeking a lot of answers, Not so much how to handle QGraphicsItem or QGraphicsScene.
1) Right click an added item, create a context menu, and then use scene->removeItem(addedItem); here.
2) Double click the item, which deletes the item - you'll need to handle double clicks, and hit-testing the QGraphicsItems, you'll have to implement mouseDoubleClickEvent(QMouseEvent *e) and pass e's pos() to this to determine if a QGraphicsItem was clicked or not.
3) Select an item using the flag ItemIsSelectable and then delete the item by pressing the delete key on the keyboard - I'm not sure about the ItemIsSelectable flag. However, you'll need #2. And to learn how to handle keyboard input, by overriding this:
void QWidget::keyPressEvent( QKeyEvent *k ){
switch ( tolower(k->ascii()) ) {
case '\x08': \\backspace
break;
case '\x7F': \\delete
break;
}
}
There's also the Qt::key enumeration, which has Key_Backspace, and Key_Delete. It can be tested against the QKeyEvent::Key()'s return if you don't like dealing with ASCII character codes.
I am new to Qt. It seems the default for multiple selection of qgraphicsitem is to press ctrl button.
But is it possible to disable this function? Or reload this function?
This is controlled by the items' flags. To disable selection for a particular item, do
item->setFlag(QGraphicsItem::ItemIsSelectable, false);
If you want to completly disable selecting items for a QGraphicsScene regardless of the item flags I would recommend to connect QGraphicsScene::selectionChanged to QGraphicsScene::clearSelection.
If you want to disable multiple selection I suggest the following:
Subclass QGraphicsScene and keep a pointer lastSelection to a QGraphicsItem around
Create a slot connected to QGraphicsScene::selectionChanged
Check selectedItems:
it's empty: nothing to do (=nothing selected)
contains only lastSelection: nothing to do (=selection didn't really change)
contains one item, not lastSelection: set lastSelection to that item (=one item selected for the first time)
contains two items: One must be lastSelection. Remove that one from the selection (lastSelection->setSelected(false);), set lastSelection to the remaining item. (=another item was selected, move selection to it)
You might need to block signals during modifying the selection inside the slot.
The simple way to disable multiple selection is:
Create your own Dirived class from QGraphicsItem.
Overload the protected mousePressEvent function and disable ControlModifier:
protected:
void YourOwnQGraphicsItem::mousePressEvent(QGraphicsSceneMouseEvent *mouseEvent) Q_DECL_OVERRIDE
{
if(mouseEvent->modifiers() & Qt::ControlModifier)
{
mouseEvent->ignore();
}
else
{
QGraphicsItem::mousePressEvent(mouseEvent);
//Do what you want...
}
}
I have one QTableWidget with some QTableWidgetsItems on it. Some items use checkboxes. I've added the checkboxes using the follow code:
QTableWidgetsItem->setCheckState(Qt::Checked);
I would like now to call some function when this checkbox state change. Using a signal for example.
What may be the easiest way to accomplish this?
The easiest way to do this is to capture signal(s) of QTableWidget with slot(s) in the class that contains QTableWidget. While it would seem that QTableWidget::itemActivated might be our best bet, it is uncertain whether or not this is emitted when the Qt::CheckState is equal to Qt::Checked. In addition, even if this was true, the signal would not provide you the capabilities of handling item unchecking which your application may need to do.
So, here is my proposed solution. Capture the QTableWidget::itemPressed and QTableWidget::itemClicked signals with slots defined in the class that contains the QTableWidget. As itemPressed should be called BEFORE the mouse button is released, and itemClicked should be called AFTER the mouse button is released, the Qt::CheckState for that QTableWidgetItem should only be set in between these two signal emissions. Thus, you can determine exactly when a QTableWidgetItem's checkState has changed with low memory overhead.
Here is an example of what these slots could look like:
void tableItemPressed(QTableWidgetItem * item)
{
// member variable used to keep track of the check state for a
// table widget item currently being pressed
m_pressedItemState = item->checkState();
}
void tableItemClicked(QTableWidgetItem * item)
{
// if check box has been clicked
if (m_pressedItemState != item->checkState())
{
// perform check logic here
}
}
And the signals/ slots would be connected as follows:
connect(m_tableWidget,SIGNAL(itemPressed(QTableWidgetItem *)),this,SLOT(tableItemPressed(QTableWidgetItem *)));
connect(m_tableWidget,SIGNAL(itemClicked(QTableWidgetItem *)),this,SLOT(tableItemClicked(QTableWidgetItem *)));
Where m_tableWidget is the QTableWidget * you associate with your table widget.