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/*
* Copyright (C) 2008 Emweb bvba, Kessel-Lo, Belgium.
*
* See the LICENSE file for terms of use.
*/
#ifndef CHART_WCARTESIAN_CHART_H_
#define CHART_WCARTESIAN_CHART_H_
#include <Wt/Chart/WAbstractChart>
#include <Wt/Chart/WAxis>
#include <Wt/Chart/WDataSeries>
#include <Wt/WPaintDevice>
#include <Wt/WContainerWidget>
namespace Wt {
class WAbstractItemModel;
class WPainter;
class WPainterPath;
namespace Chart {
class WChart2DRenderer;
class WChartPalette;
/*! \class WCartesianChart Wt/Chart/WCartesianChart Wt/Chart/WCartesianChart
* \brief A cartesian chart.
*
* A cartesian chart is a chart that uses X and Y axes. It can display
* one or multiple data series, which each may be rendered using bars,
* lines, areas, or points.
*
* To use a cartesian chart, the minimum you need to do is set a model
* using setModel(), set the model column that holds the X data using
* setXSeriesColumn(int modelColumn), and add one or more series using
* addSeries(const WDataSeries&). Each series corresponds to one data
* column that holds Y data.
*
* A cartesian chart is either a \link Chart::CategoryChart
* CategoryChart\endlink or a \link Chart::ScatterPlot
* ScatterPlot\endlink.
*
* In a <b>CategoryChart</b>, the X series represent different
* categories, which are listed consecutively in model row order. The
* X axis scale is set to \link Chart::CategoryScale
* CategoryScale\endlink.
*
* \image html ChartWCartesianChart-1.png "A category chart with bar series"
*
* Each series may be rendered differently, and this is configured in
* the data series (see WDataSeries for more information).
*
* In a <b>ScatterPlot</b>, the X series data are interpreted as
* numbers on a numerical scale. The scale for the X axis defaults to
* a \link Chart::LinearScale LinearScale\endlink, but this may be
* changed to a \link Chart::DateScale DateScale\endlink when the X
* series contains dates (of type WDate) to create a time series
* chart, or to a \link Chart::LogScale LogScale\endlink. A
* ScatterPlot supports the same types of data series as a
* CategoryChart, but does not support stacking. In a scatter plot,
* the X series do not need to be ordered in increasing values, and
* may be set differently for each dataseries using
* WDataSeries::setXSeriesColumn(int modelColumn).
*
* \image html ChartWCartesianChart-2.png "A time series scatter plot with line series"
*
* Missing data in a model series Y values is interpreted as a
* <i>break</i>. For curve-like series, this breaks the curve (or
* line).
*
* The cartesian chart has support for dual Y axes. Each data series may
* be bound to one of the two Y axes. By default, only the first Y axis
* is displayed. To show the second Y axis you will need to call:
*
* \if cpp
* \code
* chart->axis(Y2Axis).setVisible(true);
* \endcode
* \endif
*
* By default a chart has a horizontal X axis and a vertical Y axis,
* which corresponds to a \link Wt::Vertical Vertical\endlink
* orientation. The orientation may be changed to \link Wt::Horizontal
* Horizontal\endlink using setOrientation().
*
* The styling of the series data are dictated by a palette which may
* be set using setPalette(WChartPalette *), but may be overridden by
* settings in each data series.
*
* <h3>CSS</h3>
*
* Styling through CSS is not applicable.
*
* \sa WDataSeries, WAxis
* \sa WPieChart
*
* \ingroup charts modelview
*/
class WT_API WCartesianChart : public WAbstractChart
{
public:
/*! \brief Creates a new cartesian chart.
*
* Creates a cartesian chart of type \link Wt::Chart::CategoryChart
* CategoryChart\endlink.
*/
WCartesianChart(WContainerWidget *parent = 0);
/*! \brief Creates a new cartesian chart.
*
* Creates a cartesian chart of the indicated \p type.
*/
WCartesianChart(ChartType type, WContainerWidget *parent = 0);
/*! \brief Sets the chart type.
*
* The chart type determines how (x,y) data are interpreted. In a
* \link Wt::Chart::CategoryChart CategoryChart\endlink, the X
* values are categories, and these are plotted consecutively,
* evenly spaced, and in row order. In a \link
* Wt::Chart::ScatterPlot ScatterPlot\endlink, the X values are
* interpreted numerically (as for Y values).
*
* The default chart type is a \link Wt::Chart::CategoryChart
* CategoryChart\endlink.
*
* \sa type()
* \sa WAxis::setScale(), axis(Axis)
*/
void setType(ChartType type);
/*! \brief Returns the chart type.
*
* \sa setType()
*/
ChartType type() const { return type_; }
/*! \brief Sets the chart orientation.
*
* Sets the chart orientation, which corresponds to the orientation of
* the Y axis: a Wt::Vertical orientation corresponds to the conventional
* way of a horizontal X axis and vertical Y axis. A Wt::Horizontal
* orientation is the other way around.
*
* The default orientation is Wt::Vertical.
*
* \sa orientation()
*/
void setOrientation(Orientation orientation);
/*! \brief Returns the chart orientation.
*
* \sa setOrientation()
*/
Orientation orientation() const { return orientation_; }
/*! \brief Sets the the model column for the X series.
*
* Use this method to specify the data for the X series. For a \link
* Wt::Chart::ScatterPlot ScatterPlot\endlink this is mandatory,
* while for a \link Wt::Chart::CategoryChart CategoryChart\endlink,
* if not specified, an increasing series of integer numbers will be
* used (1, 2, ...).
*
* Scatterplot dataseries may each individually be given its own
* X series data using WDataSeries::setXSeriesColumn(int modelColumn)
*
* The default value is -1 (not specified).
*
* The series column is reset to -1 when the model is set (or
* changed). Thus you need to set a model before configuring the
* series.
*
* \sa XSeriesColumn()
*/
void setXSeriesColumn(int modelColumn);
/*! \brief Returns the model column for the X series.
*
* \sa setXSeriesColumn()
*/
int XSeriesColumn() const { return XSeriesColumn_; }
//later, activates a 3D plot
//void setXYData(int modelColumnX, int modelColumnY);
//bool is3D() const;
/*! \brief Adds a data series.
*
* A single chart may display one or more data series. Each data series
* displays data from a single model column in the chart. Series are
* plotted in the order that they have been added to the chart.
*
* The series column is reset to -1 when the model is set (or
* changed). Thus you need to set a model before configuring the
* series.
*
* \sa removeSeries(), setSeries()
*/
void addSeries(const WDataSeries& series);
/*! \brief Removes a data series.
*
* This removes the first data series which plots the given
* \p modelColumn.
*
* \sa addSeries(), setSeries()
*/
void removeSeries(int modelColumn);
/*! \brief Sets all data series.
*
* Replaces the current list of series with the new list.
*
* \sa series(), addSeries(), removeSeries()
*/
void setSeries(const std::vector<WDataSeries>& series);
/*! \brief Returns a data series corresponding to a data column.
*
* Returns a reference to the first data series that plots data
* from \p modelColumn.
*/
WDataSeries& series(int modelColumn);
/*! \brief Returns a data series corresponding to a data column.
*
* Returns a const reference to the first data series that plots data
* from \p modelColumn.
*/
const WDataSeries& series(int modelColumn) const;
/*! \brief Returns a list with the current data series.
*
* Returns the complete list of current data series.
*
* \sa setSeries(const std::vector<WDataSeries>&)
*/
const std::vector<WDataSeries>& series() const { return series_; }
/*! \brief Returns a chart axis.
*
* Returns a reference to the specified \p axis.
*/
WAxis& axis(Axis axis);
/*! \brief Accesses a chart axis.
*
* Returns a const reference to the specified \p axis.
*/
const WAxis& axis(Axis axis) const;
/*! \brief Sets the margin between bars of different series.
*
* Use this method to change the margin that is set between bars of
* different series. The margin is specified as a fraction of the
* width. For example, a value of 0.1 adds a 10% margin between bars
* of each series. Negative values are also allowed. For example, use
* a margin of -1 to plot the bars of different series on top of
* each other.
*
* The default value is 0.
*/
void setBarMargin(double margin);
/*! \brief Returns the margin between bars of different series.
*
* \sa setBarMargin(double)
*/
double barMargin() const { return barMargin_; }
/*! \brief Enables the legend.
*
* The location of the legend can be configured using
* setLegendLocation(). Only series for which the legend is enabled
* or included in this legend.
*
* The default value is \c false.
*
* \sa see WDataSeries::isLegendEnabled(), setLegendLocation()
*/
void setLegendEnabled(bool enabled);
/*! \brief Returns whether the legend is enabled.
*
* \sa setLegendEnabled()
*/
bool isLegendEnabled() const { return legend_; }
/*! \brief Configures the legend location.
*
* The legend can be renderd either inside or outside of the chart
* area. When \p location is \link Wt::Chart::LegendInside
* Chart::LegendInside\endlink, the legend will be rendered inside
* the chart. When \p location is \link Wt::Chart::LegendOutside
* Chart::Legendoutside\endlink, the legend is rendered outside the
* chart, in the chart padding area.
*
* The provided \p side can either be Wt::Left, Wt::Right, Wt::Top,
* Wt::Bottom and configures the side of the chart at which the
* legend is displayed.
*
* The \p alignment specifies how the legend is aligned. This can be
* a horizontal alignment flag (Wt::AlignLeft, Wt::AlignCenter, or
* Wt::AlignRight), when the \p side is Bottom or Top, or a vertical
* alignment flag (Wt::AlignTop, Wt::AlignMiddle, or Wt::AlignBottom)
* when the \p side is Left or Right.
*
* The default location is \link Wt::Chart::LegendOutside
* Chart::LegendOutside\endlink, Wt::Right and Wt::AlignMiddle.
*
* To have more control over the legend, you could reimplement the
* renderLegendItem() method to customize how one item in the legend
* is rendered, or, alternatively you can disable the legend
* generated by the chart itself, and reimplement the paint() method
* in which you use the renderLegendItem() method repeatedly to
* render a customized legend.
*
* \sa WDataSeries::setLegendEnabled()
*/
void setLegendLocation(LegendLocation location, Side side,
AlignmentFlag alignment);
/*! \brief Configures the legend decoration.
*
* This configures the font, border and background for the legend.
*
* The default font is a 10pt sans serif font (the same as the
* default axis label font), the default \p border is \link
* Wt::NoPen NoPen\endlink and the default \p background is \link
* Wt::NoBrush NoBrush\endlink.
*
* \sa setLegendEnabled()
*/
void setLegendStyle(const WFont& font, const WPen& border,
const WBrush& background);
/*! \brief Returns the legend location.
*
* \sa setLegendLocation()
*/
LegendLocation legendLocation() const { return legendLocation_; }
/*! \brief Returns the legend side.
*
* \sa setLegendLocation()
*/
Side legendSide() const { return legendSide_; }
/*! \brief Returns the legend alignment.
*
* \sa setLegendLocation()
*/
AlignmentFlag legendAlignment() const { return legendAlignment_; }
/*! \brief Returns the legend columns.
*
* \sa setLegendColumns()
*/
int legendColumns() const { return legendColumns_; }
/*! \brief Returns the legend column width.
*
* \sa setLegendColumns()
*/
WLength legendColumnWidth() const { return legendColumnWidth_; }
/*! \brief Returns the legend font.
*
* \sa setLegendStyle()
*/
WFont legendFont() const { return legendFont_; }
/*! \brief Returns the legend border pen.
*
* \sa setLegendStyle()
*/
WPen legendBorder() const { return legendBorder_; }
/*! \brief Returns the legend background brush.
*
* \sa setLegendStyle()
*/
WBrush legendBackground() const { return legendBackground_; }
/*! \brief Configures multiple legend columns.
*
* Multiple columns are typically useful when placing the legend at
* the top or at the bottom of the chart.
*
* The default value is a single column, 100 pixels wide.
*/
void setLegendColumns(int columns, const WLength& width);
virtual void paint(WPainter& painter, const WRectF& rectangle = WRectF())
const;
/*! \brief Draws the marker for a given data series.
*
* Draws the marker for the indicated \p series in the \p result.
* This method is called while painting the chart, and you may
* want to reimplement this method if you wish to provide a custom
* marker for a particular data series.
*
* \sa setLegendEnabled()
*/
virtual void drawMarker(const WDataSeries& series, WPainterPath& result)
const;
/*! \brief Renders the legend icon for a given data series.
*
* Renders the legend icon for the indicated \p series in the
* \p painter at position \p pos.
*
* This method is called while rendering a legend item, and you may
* want to reimplement this method if you wish to provide a custom
* legend icon for a particular data series.
*
* \sa renderLegendItem()
*/
virtual void renderLegendIcon(WPainter& painter, const WPointF& pos,
const WDataSeries& series) const;
/*! \brief Renders the legend item for a given data series.
*
* Renders the legend item for the indicated \p series in the
* \p painter at position \p pos. The default implementation
* draws the marker, and the series description to the right. The
* series description is taken from the model's header data for that
* series' data column.
*
* This method is called while painting the chart, and you may
* want to reimplement this method if you wish to provide a custom
* marker for a particular data series.
*
* \sa setLegendEnabled()
*/
virtual void renderLegendItem(WPainter& painter, const WPointF& pos,
const WDataSeries& series) const;
/*! \brief Maps from device coordinates to model coordinates.
*
* Maps a position in the chart back to model coordinates.
*
* This uses the axis dimensions that are based on the latest chart
* rendering. If you have not yet rendered the chart, or wish to already
* the mapping reflect model changes since the last rendering, you should
* call initLayout() first.
*
* \sa mapToDevice()
*/
WPointF mapFromDevice(const WPointF& point,
Axis ordinateAxis = OrdinateAxis) const;
/*! \brief Maps model values onto chart coordinates.
*
* This returns the chart device coordinates for a (x,y) pair of model
* values.
*
* This uses the axis dimensions that are based on the latest chart
* rendering. If you have not yet rendered the chart, or wish to already
* the mapping reflect model changes since the last rendering, you should
* call initLayout() first.
*
* The \p xSegment and \p ySegment arguments are relevant only when
* the corresponding axis is broken using WAxis::setBreak(). Then,
* its possible values may be 0 (below the break) or 1 (above the
* break).
*
* \sa mapFromDevice()
*/
WPointF mapToDevice(const boost::any& xValue, const boost::any& yValue,
Axis axis = OrdinateAxis, int xSegment = 0,
int ySegment = 0) const;
/*! \brief Initializes the chart layout.
*
* A cartesian chart delegates the rendering and layout of the chart
* and its axes to a WChart2DRenderer. As a consequence, the mapping
* between model and device coordinates is also established by this
* class, which is only created on-demand when painging.
*
* If you wish to establish the layout, in order to use the
* mapFromDevice() and mapToDevice() methods before the chart has
* been rendered, you should call this method.
*
* Unless a specific chart rectangle is specified, the entire widget
* area is assumed.
*/
void initLayout(const WRectF& rectangle = WRectF());
/*! \brief Creates a widget which renders the a legend item.
*
* The legend item widget will contain a text and a WPaintedWidget
* which draws the series' symbol.
*/
WWidget* createLegendItemWidget(int index);
/*! \brief Adds a data point area (used for displaying e.g. tooltips).
*
* You may want to specialize this is if you wish to modify (or
* delete) the area.
*
* \note Currently, an area is only created if the Wt::ToolTipRole data at the
* data point is not empty.
*/
virtual void addDataPointArea(const WDataSeries& series,
const WModelIndex& xIndex,
WAbstractArea *area);
protected:
void paintEvent(WPaintDevice *paintDevice);
/*! \brief Creates a renderer which renders the chart.
*
* The rendering of the chart is delegated to a WChart2DRenderer
* class, which will render the chart within the \p rectangle of
* the \p painter.
*
* You may want to reimplement this method if you wish to override
* one or more aspects of the rendering, by returning an new instance
* of a specialized WChart2DRenderer class.
*
* After rendering, the renderer is deleted.
*
* \sa WChart2DRenderer::render()
*/
virtual WChart2DRenderer *createRenderer(WPainter& painter,
const WRectF& rectangle) const;
private:
Orientation orientation_;
int XSeriesColumn_;
ChartType type_;
std::vector<WDataSeries> series_;
WAxis axes_[3];
double barMargin_;
bool legend_;
LegendLocation legendLocation_;
Side legendSide_;
AlignmentFlag legendAlignment_;
int legendColumns_;
WLength legendColumnWidth_;
WFont legendFont_;
WPen legendBorder_;
WBrush legendBackground_;
void init();
virtual void modelColumnsInserted(const WModelIndex& parent,
int start, int end);
virtual void modelColumnsRemoved(const WModelIndex& parent,
int start, int end);
virtual void modelRowsInserted(const WModelIndex& parent,
int start, int end);
virtual void modelRowsRemoved(const WModelIndex& parent,
int start, int end);
virtual void modelDataChanged(const WModelIndex& topLeft,
const WModelIndex& bottomRight);
virtual void modelChanged();
virtual void modelReset();
int seriesIndexOf(int modelColumn) const;
WPointF hv(double x, double y, double width) const;
WPointF inverseHv(double x, double y, double width) const;
class IconWidget : public WPaintedWidget {
public:
IconWidget(WCartesianChart *chart,
int index,
WContainerWidget *parent = 0);
protected:
virtual void paintEvent(WPaintDevice *paintDevice);
private:
WCartesianChart* chart_;
int index_;
};
friend class WDataSeries;
friend class WChart2DRenderer;
};
}
}
#endif // CHART_WCARTESIAN_CHART_H_
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