The abstract base class for all items in a plot. More...
|QCPAbstractItem (QCustomPlot *parentPlot)|
|bool||clipToAxisRect () const|
|QCPAxisRect *||clipAxisRect () const|
|bool||selectable () const|
|bool||selected () const|
|void||setClipToAxisRect (bool clip)|
|void||setClipAxisRect (QCPAxisRect *rect)|
|Q_SLOT void||setSelectable (bool selectable)|
|Q_SLOT void||setSelected (bool selected)|
|virtual double||selectTest (const QPointF &pos, bool onlySelectable, QVariant *details=0) const =0|
|QList< QCPItemPosition * >||positions () const|
|QList< QCPItemAnchor * >||anchors () const|
|QCPItemPosition *||position (const QString &name) const|
|QCPItemAnchor *||anchor (const QString &name) const|
|bool||hasAnchor (const QString &name) const|
|Public Functions inherited from QCPLayerable|
|QCPLayerable (QCustomPlot *plot, QString targetLayer=QString(), QCPLayerable *parentLayerable=0)|
|bool||visible () const|
|QCustomPlot *||parentPlot () const|
|QCPLayerable *||parentLayerable () const|
|QCPLayer *||layer () const|
|bool||antialiased () const|
|void||setVisible (bool on)|
|Q_SLOT bool||setLayer (QCPLayer *layer)|
|bool||setLayer (const QString &layerName)|
|void||setAntialiased (bool enabled)|
|bool||realVisibility () const|
|void||selectionChanged (bool selected)|
|void||selectableChanged (bool selectable)|
|Signals inherited from QCPLayerable|
|void||layerChanged (QCPLayer *newLayer)|
|virtual QCP::Interaction||selectionCategory () const|
|virtual QRect||clipRect () const|
|virtual void||applyDefaultAntialiasingHint (QCPPainter *painter) const|
|virtual void||draw (QCPPainter *painter)=0|
|virtual void||selectEvent (QMouseEvent *event, bool additive, const QVariant &details, bool *selectionStateChanged)|
|virtual void||deselectEvent (bool *selectionStateChanged)|
|virtual QPointF||anchorPixelPosition (int anchorId) const|
|double||rectDistance (const QRectF &rect, const QPointF &pos, bool filledRect) const|
|QCPItemPosition *||createPosition (const QString &name)|
|QCPItemAnchor *||createAnchor (const QString &name, int anchorId)|
|Protected Functions inherited from QCPLayerable|
|virtual void||parentPlotInitialized (QCustomPlot *parentPlot)|
|virtual void||mousePressEvent (QMouseEvent *event, const QVariant &details)|
|virtual void||mouseMoveEvent (QMouseEvent *event, const QPointF &startPos)|
|virtual void||mouseReleaseEvent (QMouseEvent *event, const QPointF &startPos)|
|virtual void||mouseDoubleClickEvent (QMouseEvent *event, const QVariant &details)|
|virtual void||wheelEvent (QWheelEvent *event)|
|void||initializeParentPlot (QCustomPlot *parentPlot)|
|void||setParentLayerable (QCPLayerable *parentLayerable)|
|bool||moveToLayer (QCPLayer *layer, bool prepend)|
|void||applyAntialiasingHint (QCPPainter *painter, bool localAntialiased, QCP::AntialiasedElement overrideElement) const|
The abstract base class for all items in a plot.
In QCustomPlot, items are supplemental graphical elements that are neither plottables (QCPAbstractPlottable) nor axes (QCPAxis). While plottables are always tied to two axes and thus plot coordinates, items can also be placed in absolute coordinates independent of any axes. Each specific item has at least one QCPItemPosition member which controls the positioning. Some items are defined by more than one coordinate and thus have two or more QCPItemPosition members (For example, QCPItemRect has topLeft and bottomRight).
This abstract base class defines a very basic interface like visibility and clipping. Since this class is abstract, it can't be instantiated. Use one of the subclasses or create a subclass yourself to create new items.
The built-in items are:
|QCPItemLine||A line defined by a start and an end point. May have different ending styles on each side (e.g. arrows).|
|QCPItemStraightLine||A straight line defined by a start and a direction point. Unlike QCPItemLine, the straight line is infinitely long and has no endings.|
|QCPItemCurve||A curve defined by start, end and two intermediate control points. May have different ending styles on each side (e.g. arrows).|
|QCPItemPixmap||An arbitrary pixmap|
|QCPItemText||A text label|
|QCPItemBracket||A bracket which may be used to reference/highlight certain parts in the plot.|
|QCPItemTracer||An item that can be attached to a QCPGraph and sticks to its data points, given a key coordinate.|
Items are by default clipped to the main axis rect (they are only visible inside the axis rect). To make an item visible outside that axis rect, disable clipping via setClipToAxisRect(false).
On the other hand if you want the item to be clipped to a different axis rect, specify it via setClipAxisRect. This clipAxisRect property of an item is only used for clipping behaviour, and in principle is independent of the coordinate axes the item might be tied to via its position members (QCPItemPosition::setAxes). However, it is common that the axis rect for clipping also contains the axes used for the item positions.
First you instantiate the item you want to use and add it to the plot:
by default, the positions of the item are bound to the x- and y-Axis of the plot. So we can just set the plot coordinates where the line should start/end:
If we don't want the line to be positioned in plot coordinates but a different coordinate system, e.g. absolute pixel positions on the QCustomPlot surface, we need to change the position type like this:
Then we can set the coordinates, this time in pixels:
and make the line visible on the entire QCustomPlot, by disabling clipping to the axis rect:
For more advanced plots, it is even possible to set different types and parent anchors per X/Y coordinate of an item position, using for example QCPItemPosition::setTypeX or QCPItemPosition::setParentAnchorX. For details, see the documentation of QCPItemPosition.
To create an own item, you implement a subclass of QCPAbstractItem. These are the pure virtual functions, you must implement:
See the documentation of those functions for what they need to do.
As mentioned, item positions are represented by QCPItemPosition members. Let's assume the new item shall have only one point as its position (as opposed to two like a rect or multiple like a polygon). You then add a public member of type QCPItemPosition like so:
the const makes sure the pointer itself can't be modified from the user of your new item (the QCPItemPosition instance it points to, can be modified, of course). The initialization of this pointer is made easy with the createPosition function. Just assign the return value of this function to each QCPItemPosition in the constructor of your item. createPosition takes a string which is the name of the position, typically this is identical to the variable name. For example, the constructor of QCPItemExample could look like this:
To give your item a visual representation, reimplement the draw function and use the passed QCPPainter to draw the item. You can retrieve the item position in pixel coordinates from the position member(s) via QCPItemPosition::pixelPosition.
To optimize performance you should calculate a bounding rect first (don't forget to take the pen width into account), check whether it intersects the clipRect, and only draw the item at all if this is the case.
Your implementation of the selectTest function may use the helpers QCPVector2D::distanceSquaredToLine and rectDistance. With these, the implementation of the selection test becomes significantly simpler for most items. See the documentation of selectTest for what the function parameters mean and what the function should return.
Providing anchors (QCPItemAnchor) starts off like adding a position. First you create a public member, e.g.
and create it in the constructor with the createAnchor function, assigning it a name and an anchor id (an integer enumerating all anchors on the item, you may create an own enum for this). Since anchors can be placed anywhere, relative to the item's position(s), your item needs to provide the position of every anchor with the reimplementation of the anchorPixelPosition(int anchorId) function.
In essence the QCPItemAnchor is merely an intermediary that itself asks your item for the pixel position when anything attached to the anchor needs to know the coordinates.
Base class constructor which initializes base class members.
|void QCPAbstractItem::setClipAxisRect||(||QCPAxisRect *||rect||)|
However, even when selectable was set to false, it is possible to set the selection manually, by calling setSelected.
Sets whether this item is selected or not. When selected, it might use a different visual appearance (e.g. pen and brush), this depends on the specific item though.
The entire selection mechanism for items is handled automatically when QCustomPlot::setInteractions contains QCustomPlot::iSelectItems. You only need to call this function when you wish to change the selection state manually.
This function can change the selection state even when setSelectable was set to false.
emits the selectionChanged signal when selected is different from the previous selection state.
This function is used to decide whether a click hits a layerable object or not.
pos is a point in pixel coordinates on the QCustomPlot surface. This function returns the shortest pixel distance of this point to the object. If the object is either invisible or the distance couldn't be determined, -1.0 is returned. Further, if onlySelectable is true and the object is not selectable, -1.0 is returned, too.
If the object is represented not by single lines but by an area like a QCPItemText or the bars of a QCPBars plottable, a click inside the area should also be considered a hit. In these cases this function thus returns a constant value greater zero but still below the parent plot's selection tolerance. (typically the selectionTolerance multiplied by 0.99).
Providing a constant value for area objects allows selecting line objects even when they are obscured by such area objects, by clicking close to the lines (i.e. closer than 0.99*selectionTolerance).
The actual setting of the selection state is not done by this function. This is handled by the parent QCustomPlot when the mouseReleaseEvent occurs, and the finally selected object is notified via the selectEvent/deselectEvent methods.
details is an optional output parameter. Every layerable subclass may place any information in details. This information will be passed to selectEvent when the parent QCustomPlot decides on the basis of this selectTest call, that the object was successfully selected. The subsequent call to selectEvent will carry the details. This is useful for multi-part objects (like QCPAxis). This way, a possibly complex calculation to decide which part was clicked is only done once in selectTest. The result (i.e. the actually clicked part) can then be placed in details. So in the subsequent selectEvent, the decision which part was selected doesn't have to be done a second time for a single selection operation.
You may pass 0 as details to indicate that you are not interested in those selection details.
Reimplemented from QCPLayerable.
|QCPItemPosition * QCPAbstractItem::position||(||const QString &||name||)||const|
Returns the QCPItemPosition with the specified name. If this item doesn't have a position by that name, returns 0.
This function provides an alternative way to access item positions. Normally, you access positions direcly by their member pointers (which typically have the same variable name as name).
|QCPItemAnchor * QCPAbstractItem::anchor||(||const QString &||name||)||const|
Returns the QCPItemAnchor with the specified name. If this item doesn't have an anchor by that name, returns 0.
This function provides an alternative way to access item anchors. Normally, you access anchors direcly by their member pointers (which typically have the same variable name as name).
|bool QCPAbstractItem::hasAnchor||(||const QString &||name||)||const|
This signal is emitted when the selection state of this item has changed, either by user interaction or by a direct call to setSelected.
Returns the selection category this layerable shall belong to. The selection category is used in conjunction with QCustomPlot::setInteractions to control which objects are selectable and which aren't.
Reimplemented from QCPLayerable.
If the item is not clipped to an axis rect, QCustomPlot's viewport rect is returned.
Reimplemented from QCPLayerable.
A convenience function to easily set the QPainter::Antialiased hint on the provided painter before drawing item lines.
This is the antialiasing state the painter passed to the draw method is in by default.
Draws this item with the provided painter.
The cliprect of the provided painter is set to the rect returned by clipRect before this function is called. The clipRect depends on the clipping settings defined by setClipToAxisRect and setClipAxisRect.
This event is called when the layerable shall be selected, as a consequence of a click by the user. Subclasses should react to it by setting their selection state appropriately. The default implementation does nothing.
event is the mouse event that caused the selection. additive indicates, whether the user was holding the multi-select-modifier while performing the selection (see QCustomPlot::setMultiSelectModifier). if additive is true, the selection state must be toggled (i.e. become selected when unselected and unselected when selected).
Every selectEvent is preceded by a call to selectTest, which has returned positively (i.e. returned a value greater than 0 and less than the selection tolerance of the parent QCustomPlot). The details data you output from selectTest is fed back via details here. You may use it to transport any kind of information from the selectTest to the possibly subsequent selectEvent. Usually details is used to transfer which part was clicked, if it is a layerable that has multiple individually selectable parts (like QCPAxis). This way selectEvent doesn't need to do the calculation again to find out which part was actually clicked.
selectionStateChanged is an output parameter. If the pointer is non-null, this function must set the value either to true or false, depending on whether the selection state of this layerable was actually changed. For layerables that only are selectable as a whole and not in parts, this is simple: if additive is true, selectionStateChanged must also be set to true, because the selection toggles. If additive is false, selectionStateChanged is only set to true, if the layerable was previously unselected and now is switched to the selected state.
Reimplemented from QCPLayerable.
This event is called when the layerable shall be deselected, either as consequence of a user interaction or a call to QCustomPlot::deselectAll. Subclasses should react to it by unsetting their selection appropriately.
just as in selectEvent, the output parameter selectionStateChanged (if non-null), must return true or false when the selection state of this layerable has changed or not changed, respectively.
Reimplemented from QCPLayerable.
Returns the pixel position of the anchor with Id anchorId. This function must be reimplemented in item subclasses if they want to provide anchors (QCPItemAnchor).
For example, if the item has two anchors with id 0 and 1, this function takes one of these anchor ids and returns the respective pixel points of the specified anchor.
A convenience function which returns the selectTest value for a specified rect and a specified click position pos. filledRect defines whether a click inside the rect should also be considered a hit or whether only the rect border is sensitive to hits.
This function may be used to help with the implementation of the selectTest function for specific items.
For example, if your item consists of four rects, call this function four times, once for each rect, in your selectTest reimplementation. Finally, return the minimum (non -1) of all four returned values.
Creates a QCPItemPosition, registers it with this item and returns a pointer to it. The specified name must be a unique string that is usually identical to the variable name of the position member (This is needed to provide the name-based position access to positions).
Don't delete positions created by this function manually, as the item will take care of it.
Use this function in the constructor (initialization list) of the specific item subclass to create each position member. Don't create QCPItemPositions with new yourself, because they won't be registered with the item properly.
Creates a QCPItemAnchor, registers it with this item and returns a pointer to it. The specified name must be a unique string that is usually identical to the variable name of the anchor member (This is needed to provide the name based anchor access to anchors).
The anchorId must be a number identifying the created anchor. It is recommended to create an enum (e.g. "AnchorIndex") for this on each item that uses anchors. This id is used by the anchor to identify itself when it calls QCPAbstractItem::anchorPixelPosition. That function then returns the correct pixel coordinates for the passed anchor id.
Don't delete anchors created by this function manually, as the item will take care of it.
Use this function in the constructor (initialization list) of the specific item subclass to create each anchor member. Don't create QCPItemAnchors with new yourself, because then they won't be registered with the item properly.