/// <summary>
/// Draw the this <see cref="CurveItem"/> to the specified <see cref="Graphics"/>
/// device using the specified smoothing property (<see cref="ZedGraph.Line.SmoothTension"/>).
/// The routine draws the line segments and the area fill (if any, see <see cref="FillType"/>;
/// the symbols are drawn by the <see cref="Symbol.Draw"/> method. This method
/// is normally only called by the Draw method of the
/// <see cref="CurveItem"/> object. Note that the <see cref="StepType"/> property
/// is ignored for smooth lines (e.g., when <see cref="ZedGraph.Line.IsSmooth"/> is true).
/// </summary>
/// <param name="g">
/// A graphic device object to be drawn into. This is normally e.Graphics from the
/// PaintEventArgs argument to the Paint() method.
/// </param>
/// <param name="scaleFactor">
/// The scaling factor to be used for rendering objects. This is calculated and
/// passed down by the parent <see cref="GraphPane"/> object using the
/// <see cref="PaneBase.CalcScaleFactor"/> method, and is used to proportionally adjust
/// font sizes, etc. according to the actual size of the graph.
/// </param>
/// <param name="pane">
/// A reference to the <see cref="GraphPane"/> object that is the parent or
/// owner of this object.
/// </param>
/// <param name="curve">A <see cref="LineItem"/> representing this
/// curve.</param>
public void DrawSmoothFilledCurve( Graphics g, GraphPane pane,
CurveItem curve, float scaleFactor )
{
Line source = this;
if ( curve.IsSelected )
source = Selection.Line;
PointF[] arrPoints;
int count;
IPointList points = curve.Points;
if ( this.IsVisible && !this.Color.IsEmpty && points != null &&
BuildPointsArray( pane, curve, out arrPoints, out count ) &&
count > 2 )
{
float tension = _isSmooth ? _smoothTension : 0f;
// Fill the curve if needed
if ( this.Fill.IsVisible )
{
Axis yAxis = curve.GetYAxis( pane );
using ( GraphicsPath path = new GraphicsPath( FillMode.Winding ) )
{
path.AddCurve( arrPoints, 0, count - 2, tension );
double yMin = yAxis._scale._min < 0 ? 0.0 : yAxis._scale._min;
CloseCurve( pane, curve, arrPoints, count, yMin, path );
RectangleF rect = path.GetBounds();
using ( Brush brush = source._fill.MakeBrush( rect ) )
{
if ( pane.LineType == LineType.Stack && yAxis.Scale._min < 0 &&
this.IsFirstLine( pane, curve ) )
{
float zeroPix = yAxis.Scale.Transform( 0 );
RectangleF tRect = pane.Chart._rect;
tRect.Height = zeroPix - tRect.Top;
if ( tRect.Height > 0 )
{
Region reg = g.Clip;
g.SetClip( tRect );
g.FillPath( brush, path );
g.SetClip( pane.Chart._rect );
}
}
else
g.FillPath( brush, path );
//brush.Dispose();
}
// restore the zero line if needed (since the fill tends to cover it up)
yAxis.FixZeroLine( g, pane, scaleFactor, rect.Left, rect.Right );
}
}
// If it's a smooth curve, go ahead and render the path. Otherwise, use the
// standard drawcurve method just in case there are missing values.
if ( _isSmooth )
{
using ( Pen pen = GetPen( pane, scaleFactor ) )
{
// Stroke the curve
g.DrawCurve( pen, arrPoints, 0, count - 2, tension );
//pen.Dispose();
}
}
else
DrawCurve( g, pane, curve, scaleFactor );
}
}
/// <summary>
/// Add a <see cref="CurveItem" /> to the selection list.
/// </summary>
/// <param name="master">The <see cref="MasterPane" /> that is the "owner"
/// of the <see cref="CurveItem" />'s.</param>
/// <param name="ci">The <see cref="CurveItem" /> to be added to the list.</param>
public void AddToSelection( MasterPane master, CurveItem ci )
{
if ( this.Contains( ci ) == false )
Add( ci );
UpdateSelection( master );
}
/// <summary>
/// The Copy Constructor
/// </summary>
/// <param name="rhs">The CurveItem object from which to copy</param>
public CurveItem( CurveItem rhs )
{
_label = rhs._label.Clone();
_isY2Axis = rhs.IsY2Axis;
_isX2Axis = rhs.IsX2Axis;
_isVisible = rhs.IsVisible;
_isOverrideOrdinal = rhs._isOverrideOrdinal;
_yAxisIndex = rhs._yAxisIndex;
if ( rhs.Tag is ICloneable )
this.Tag = ((ICloneable) rhs.Tag).Clone();
else
this.Tag = rhs.Tag;
_points = (IPointList) rhs.Points.Clone();
_link = rhs._link.Clone();
}
/// <summary>
/// Do all rendering associated with this <see cref="Line"/> to the specified
/// <see cref="Graphics"/> device. This method is normally only
/// called by the Draw method of the parent <see cref="LineItem"/> object.
/// </summary>
/// <param name="g">
/// A graphic device object to be drawn into. This is normally e.Graphics from the
/// PaintEventArgs argument to the Paint() method.
/// </param>
/// <param name="scaleFactor">
/// The scaling factor to be used for rendering objects. This is calculated and
/// passed down by the parent <see cref="GraphPane"/> object using the
/// <see cref="PaneBase.CalcScaleFactor"/> method, and is used to proportionally adjust
/// font sizes, etc. according to the actual size of the graph.
/// </param>
/// <param name="pane">
/// A reference to the <see cref="ZedGraph.GraphPane"/> object that is the parent or
/// owner of this object.
/// </param>
/// <param name="curve">A <see cref="LineItem"/> representing this
/// curve.</param>
public void Draw( Graphics g, GraphPane pane, CurveItem curve, float scaleFactor )
{
// If the line is being shown, draw it
if ( this.IsVisible )
{
//How to handle fill vs nofill?
//if ( isSelected )
// GraphPane.Default.SelectedLine.
SmoothingMode sModeSave = g.SmoothingMode;
if ( _isAntiAlias )
g.SmoothingMode = SmoothingMode.HighQuality;
if ( curve is StickItem )
DrawSticks( g, pane, curve, scaleFactor );
else if ( this.IsSmooth || this.Fill.IsVisible )
DrawSmoothFilledCurve( g, pane, curve, scaleFactor );
else
DrawCurve( g, pane, curve, scaleFactor );
g.SmoothingMode = sModeSave;
}
}
/// <summary>
/// Get the user scale values associate with a particular point of a
/// particular curve.</summary>
/// <remarks>The main purpose of this method is to handle
/// stacked bars, in which case the stacked values are returned rather
/// than the individual data values.
/// </remarks>
/// <param name="curve">A <see cref="CurveItem"/> object of interest.</param>
/// <param name="iPt">The zero-based point index for the point of interest.</param>
/// <param name="baseVal">A <see cref="Double"/> value representing the value
/// for the independent axis.</param>
/// <param name="lowVal">A <see cref="Double"/> value representing the lower
/// value for the dependent axis.</param>
/// <param name="hiVal">A <see cref="Double"/> value representing the upper
/// value for the dependent axis.</param>
/// <returns>true if the data point is value, false for
/// <see cref="PointPairBase.Missing"/>, invalid, etc. data.</returns>
public bool GetValues( CurveItem curve, int iPt, out double baseVal,
out double lowVal, out double hiVal )
{
return GetValues( _pane, curve, iPt, out baseVal,
out lowVal, out hiVal );
}
private bool IsFirstLine( GraphPane pane, CurveItem curve )
{
CurveList curveList = pane.CurveList;
for ( int j = 0; j < curveList.Count; j++ )
{
CurveItem tCurve = curveList[j];
if ( tCurve is LineItem && tCurve.IsY2Axis == curve.IsY2Axis &&
tCurve.YAxisIndex == curve.YAxisIndex )
{
return tCurve == curve;
}
}
return false;
}
/// <summary>
/// Build an array of <see cref="PointF"/> values (pixel coordinates) that represents
/// the current curve. Note that this drawing routine ignores <see cref="PointPairBase.Missing"/>
/// values, but it does not "break" the line to indicate values are missing.
/// </summary>
/// <param name="pane">A reference to the <see cref="GraphPane"/> object that is the parent or
/// owner of this object.</param>
/// <param name="curve">A <see cref="LineItem"/> representing this
/// curve.</param>
/// <param name="arrPoints">An array of <see cref="PointF"/> values in pixel
/// coordinates representing the current curve.</param>
/// <param name="count">The number of points contained in the "arrPoints"
/// parameter.</param>
/// <returns>true for a successful points array build, false for data problems</returns>
public bool BuildPointsArray( GraphPane pane, CurveItem curve,
out PointF[] arrPoints, out int count )
{
arrPoints = null;
count = 0;
IPointList points = curve.Points;
if ( this.IsVisible && !this.Color.IsEmpty && points != null )
{
int index = 0;
float curX, curY,
lastX = 0,
lastY = 0;
double x, y, lowVal;
ValueHandler valueHandler = new ValueHandler( pane, false );
// Step type plots get twice as many points. Always add three points so there is
// room to close out the curve for area fills.
arrPoints = new PointF[( _stepType == ZedGraph.StepType.NonStep ? 1 : 2 ) *
points.Count + 1];
// Loop over all points in the curve
for ( int i = 0; i < points.Count; i++ )
{
// make sure that the current point is valid
if ( !points[i].IsInvalid )
{
// Get the user scale values for the current point
// use the valueHandler only for stacked types
if ( pane.LineType == LineType.Stack )
{
valueHandler.GetValues( curve, i, out x, out lowVal, out y );
}
// otherwise, just access the values directly. Avoiding the valueHandler for
// non-stacked types is an optimization to minimize overhead in case there are
// a large number of points.
else
{
x = points[i].X;
y = points[i].Y;
}
if ( x == PointPair.Missing || y == PointPair.Missing )
continue;
// Transform the user scale values to pixel locations
Axis xAxis = curve.GetXAxis( pane );
curX = xAxis.Scale.Transform( curve.IsOverrideOrdinal, i, x );
Axis yAxis = curve.GetYAxis( pane );
curY = yAxis.Scale.Transform( curve.IsOverrideOrdinal, i, y );
if ( curX < -1000000 || curY < -1000000 || curX > 1000000 || curY > 1000000 )
continue;
// Add the pixel value pair into the points array
// Two points are added for step type curves
// ignore step-type setting for smooth curves
if ( _isSmooth || index == 0 || this.StepType == StepType.NonStep )
{
arrPoints[index].X = curX;
arrPoints[index].Y = curY;
}
else if ( this.StepType == StepType.ForwardStep ||
this.StepType == StepType.ForwardSegment )
{
arrPoints[index].X = curX;
arrPoints[index].Y = lastY;
index++;
arrPoints[index].X = curX;
arrPoints[index].Y = curY;
}
else if ( this.StepType == StepType.RearwardStep ||
this.StepType == StepType.RearwardSegment )
{
arrPoints[index].X = lastX;
arrPoints[index].Y = curY;
index++;
arrPoints[index].X = curX;
arrPoints[index].Y = curY;
}
lastX = curX;
lastY = curY;
index++;
}
}
// Make sure there is at least one valid point
if ( index == 0 )
return false;
// Add an extra point at the end, since the smoothing algorithm requires it
arrPoints[index] = arrPoints[index - 1];
index++;
count = index;
return true;
}
else
{
return false;
}
}
/// <summary>
/// Draw the specified single bar (an individual "point") of this series to the specified
/// <see cref="Graphics"/> device. This method is not as efficient as
/// <see cref="DrawBars"/>, which draws the bars for all points. It is intended to be used
/// only for <see cref="BarType.SortedOverlay"/>, which requires special handling of each bar.
/// </summary>
/// <param name="g">
/// A graphic device object to be drawn into. This is normally e.Graphics from the
/// PaintEventArgs argument to the Paint() method.
/// </param>
/// <param name="pane">
/// A reference to the <see cref="GraphPane"/> object that is the parent or
/// owner of this object.
/// </param>
/// <param name="curve">A <see cref="CurveItem"/> object representing the
/// <see cref="Bar"/>'s to be drawn.</param>
/// <param name="baseAxis">The <see cref="Axis"/> class instance that defines the base (independent)
/// axis for the <see cref="Bar"/></param>
/// <param name="valueAxis">The <see cref="Axis"/> class instance that defines the value (dependent)
/// axis for the <see cref="Bar"/></param>
/// <param name="pos">
/// The ordinal position of the this bar series (0=first bar, 1=second bar, etc.)
/// in the cluster of bars.
/// </param>
/// <param name="index">
/// The zero-based index number for the single bar to be drawn.
/// </param>
/// <param name="barWidth">
/// The width of each bar, in pixels.
/// </param>
/// <param name="scaleFactor">
/// The scaling factor to be used for rendering objects. This is calculated and
/// passed down by the parent <see cref="GraphPane"/> object using the
/// <see cref="PaneBase.CalcScaleFactor"/> method, and is used to proportionally adjust
/// font sizes, etc. according to the actual size of the graph.
/// </param>
public void DrawSingleBar( Graphics g, GraphPane pane, CurveItem curve,
Axis baseAxis, Axis valueAxis,
int pos, int index, float barWidth, float scaleFactor )
{
// Make sure that a bar value exists for the current curve and current ordinal position
if ( index >= curve.Points.Count )
return;
// For Overlay and Stack bars, the position is always zero since the bars are on top
// of eachother
if ( pane._barSettings.Type == BarType.Overlay || pane._barSettings.Type == BarType.Stack ||
pane._barSettings.Type == BarType.PercentStack )
pos = 0;
// Draw the specified bar
DrawSingleBar( g, pane, curve, index, pos, baseAxis, valueAxis, barWidth, scaleFactor );
}
/// <summary>
/// Protected internal routine that draws the specified single bar (an individual "point")
/// of this series to the specified <see cref="Graphics"/> device.
/// </summary>
/// <param name="g">
/// A graphic device object to be drawn into. This is normally e.Graphics from the
/// PaintEventArgs argument to the Paint() method.
/// </param>
/// <param name="pane">
/// A reference to the <see cref="GraphPane"/> object that is the parent or
/// owner of this object.
/// </param>
/// <param name="curve">A <see cref="CurveItem"/> object representing the
/// <see cref="Bar"/>'s to be drawn.</param>
/// <param name="index">
/// The zero-based index number for the single bar to be drawn.
/// </param>
/// <param name="pos">
/// The ordinal position of the this bar series (0=first bar, 1=second bar, etc.)
/// in the cluster of bars.
/// </param>
/// <param name="baseAxis">The <see cref="Axis"/> class instance that defines the base (independent)
/// axis for the <see cref="Bar"/></param>
/// <param name="valueAxis">The <see cref="Axis"/> class instance that defines the value (dependent)
/// axis for the <see cref="Bar"/></param>
/// <param name="barWidth">
/// The width of each bar, in pixels.
/// </param>
/// <param name="scaleFactor">
/// The scaling factor to be used for rendering objects. This is calculated and
/// passed down by the parent <see cref="GraphPane"/> object using the
/// <see cref="PaneBase.CalcScaleFactor"/> method, and is used to proportionally adjust
/// font sizes, etc. according to the actual size of the graph.
/// </param>
protected virtual void DrawSingleBar( Graphics g, GraphPane pane,
CurveItem curve,
int index, int pos, Axis baseAxis, Axis valueAxis,
float barWidth, float scaleFactor )
{
// pixBase = pixel value for the bar center on the base axis
// pixHiVal = pixel value for the bar top on the value axis
// pixLowVal = pixel value for the bar bottom on the value axis
float pixBase, pixHiVal, pixLowVal;
float clusterWidth = pane.BarSettings.GetClusterWidth();
//float barWidth = curve.GetBarWidth( pane );
float clusterGap = pane._barSettings.MinClusterGap * barWidth;
float barGap = barWidth * pane._barSettings.MinBarGap;
// curBase = the scale value on the base axis of the current bar
// curHiVal = the scale value on the value axis of the current bar
// curLowVal = the scale value of the bottom of the bar
double curBase, curLowVal, curHiVal;
ValueHandler valueHandler = new ValueHandler( pane, false );
valueHandler.GetValues( curve, index, out curBase, out curLowVal, out curHiVal );
// Any value set to double max is invalid and should be skipped
// This is used for calculated values that are out of range, divide
// by zero, etc.
// Also, any value <= zero on a log scale is invalid
if ( !curve.Points[index].IsInvalid )
{
// calculate a pixel value for the top of the bar on value axis
pixLowVal = valueAxis.Scale.Transform( curve.IsOverrideOrdinal, index, curLowVal );
pixHiVal = valueAxis.Scale.Transform( curve.IsOverrideOrdinal, index, curHiVal );
// calculate a pixel value for the center of the bar on the base axis
pixBase = baseAxis.Scale.Transform( curve.IsOverrideOrdinal, index, curBase );
// Calculate the pixel location for the side of the bar (on the base axis)
float pixSide = pixBase - clusterWidth / 2.0F + clusterGap / 2.0F +
pos * ( barWidth + barGap );
// Draw the bar
if ( pane._barSettings.Base == BarBase.X )
this.Draw( g, pane, pixSide, pixSide + barWidth, pixLowVal,
pixHiVal, scaleFactor, true, curve.IsSelected,
curve.Points[index] );
else
this.Draw( g, pane, pixLowVal, pixHiVal, pixSide, pixSide + barWidth,
scaleFactor, true, curve.IsSelected,
curve.Points[index] );
}
}
/// <summary>
/// Find the data point that lies closest to the specified mouse (screen)
/// point.
/// </summary>
/// <remarks>
/// This method will search through the specified list of curves to find which point is
/// nearest. It will only consider points that are within
/// <see cref="Default.NearestTol"/> pixels of the screen point, and it will
/// only consider <see cref="CurveItem"/>'s that are in
/// <paramref name="targetCurveList"/>.
/// </remarks>
/// <param name="mousePt">The screen point, in pixel coordinates.</param>
/// <param name="targetCurveList">A <see cref="CurveList"/> object containing
/// a subset of <see cref="CurveItem"/>'s to be searched.</param>
/// <param name="nearestCurve">A reference to the <see cref="CurveItem"/>
/// instance that contains the closest point. nearestCurve will be null if
/// no data points are available.</param>
/// <param name="iNearest">The index number of the closest point. The
/// actual data vpoint will then be <see cref="CurveItem.Points">CurveItem.Points[iNearest]</see>
/// . iNearest will
/// be -1 if no data points are available.</param>
/// <returns>true if a point was found and that point lies within
/// <see cref="Default.NearestTol"/> pixels
/// of the screen point, false otherwise.</returns>
public bool FindNearestPoint( PointF mousePt, CurveList targetCurveList,
out CurveItem nearestCurve, out int iNearest )
{
CurveItem nearestBar = null;
int iNearestBar = -1;
nearestCurve = null;
iNearest = -1;
// If the point is outside the ChartRect, always return false
if ( !_chart._rect.Contains( mousePt ) )
return false;
double x, x2;
double[] y;
double[] y2;
//ReverseTransform( mousePt, out x, out y, out y2 );
ReverseTransform( mousePt, out x, out x2, out y, out y2 );
if ( !AxisRangesValid() )
return false;
ValueHandler valueHandler = new ValueHandler( this, false );
//double yPixPerUnit = chartRect.Height / ( yAxis.Max - yAxis.Min );
//double y2PixPerUnit; // = chartRect.Height / ( y2Axis.Max - y2Axis.Min );
double yPixPerUnitAct, yAct, yMinAct, yMaxAct, xAct;
double minDist = 1e20;
double xVal, yVal, dist = 99999, distX, distY;
double tolSquared = Default.NearestTol * Default.NearestTol;
int iBar = 0;
foreach ( CurveItem curve in targetCurveList )
{
//test for pie first...if it's a pie rest of method superfluous
if ( curve is PieItem && curve.IsVisible )
{
if ( ( (PieItem)curve ).SlicePath != null &&
( (PieItem)curve ).SlicePath.IsVisible( mousePt ) )
{
nearestBar = curve;
iNearestBar = 0;
}
continue;
}
else if ( curve.IsVisible )
{
int yIndex = curve.GetYAxisIndex( this );
Axis yAxis = curve.GetYAxis( this );
Axis xAxis = curve.GetXAxis( this );
if ( curve.IsY2Axis )
{
yAct = y2[yIndex];
yMinAct = _y2AxisList[yIndex]._scale._min;
yMaxAct = _y2AxisList[yIndex]._scale._max;
}
else
{
yAct = y[yIndex];
yMinAct = _yAxisList[yIndex]._scale._min;
yMaxAct = _yAxisList[yIndex]._scale._max;
}
yPixPerUnitAct = _chart._rect.Height / ( yMaxAct - yMinAct );
double xPixPerUnit = _chart._rect.Width / ( xAxis._scale._max - xAxis._scale._min );
xAct = xAxis is XAxis ? x : x2;
IPointList points = curve.Points;
float barWidth = curve.GetBarWidth( this );
double barWidthUserHalf;
Axis baseAxis = curve.BaseAxis( this );
bool isXBaseAxis = ( baseAxis is XAxis || baseAxis is X2Axis );
if ( isXBaseAxis )
barWidthUserHalf = barWidth / xPixPerUnit / 2.0;
else
barWidthUserHalf = barWidth / yPixPerUnitAct / 2.0;
if ( points != null )
{
for ( int iPt = 0; iPt < curve.NPts; iPt++ )
{
// xVal is the user scale X value of the current point
if ( xAxis._scale.IsAnyOrdinal && !curve.IsOverrideOrdinal )
xVal = (double)iPt + 1.0;
else
xVal = points[iPt].X;
// yVal is the user scale Y value of the current point
if ( yAxis._scale.IsAnyOrdinal && !curve.IsOverrideOrdinal )
yVal = (double)iPt + 1.0;
else
yVal = points[iPt].Y;
if ( xVal != PointPair.Missing &&
yVal != PointPair.Missing )
{
if ( curve.IsBar || curve is ErrorBarItem ||
curve is HiLowBarItem || curve is OHLCBarItem ||
curve is JapaneseCandleStickItem )
{
double baseVal, lowVal, hiVal;
valueHandler.GetValues( curve, iPt, out baseVal,
out lowVal, out hiVal );
if ( lowVal > hiVal )
{
double tmpVal = lowVal;
lowVal = hiVal;
hiVal = tmpVal;
}
if ( isXBaseAxis )
{
double centerVal = valueHandler.BarCenterValue( curve, barWidth, iPt, xVal, iBar );
if ( xAct < centerVal - barWidthUserHalf ||
xAct > centerVal + barWidthUserHalf ||
yAct < lowVal || yAct > hiVal )
continue;
}
else
{
double centerVal = valueHandler.BarCenterValue( curve, barWidth, iPt, yVal, iBar );
if ( yAct < centerVal - barWidthUserHalf ||
yAct > centerVal + barWidthUserHalf ||
xAct < lowVal || xAct > hiVal )
continue;
}
if ( nearestBar == null )
{
iNearestBar = iPt;
nearestBar = curve;
}
}
else if ( xVal >= xAxis._scale._min && xVal <= xAxis._scale._max &&
yVal >= yMinAct && yVal <= yMaxAct )
{
if ( curve is LineItem && _lineType == LineType.Stack )
{
double zVal;
valueHandler.GetValues( curve, iPt, out xVal, out zVal, out yVal );
}
distX = ( xVal - xAct ) * xPixPerUnit;
distY = ( yVal - yAct ) * yPixPerUnitAct;
dist = distX * distX + distY * distY;
if ( dist >= minDist )
continue;
minDist = dist;
iNearest = iPt;
nearestCurve = curve;
}
}
}
if ( curve.IsBar )
iBar++;
}
}
}
if ( nearestCurve is LineItem )
{
float halfSymbol = (float)( ( (LineItem)nearestCurve ).Symbol.Size *
CalcScaleFactor() / 2 );
minDist -= halfSymbol * halfSymbol;
if ( minDist < 0 )
minDist = 0;
}
if ( minDist >= tolSquared && nearestBar != null )
{
// if no point met the tolerance, but a bar was found, use it
nearestCurve = nearestBar;
iNearest = iNearestBar;
return true;
}
else if ( minDist < tolSquared )
{
// Did we find a close point, and is it within the tolerance?
// (minDist is the square of the distance in pixel units)
return true;
}
else // otherwise, no valid point found
return false;
}
/// <summary>
/// Draw the this <see cref="Bar"/> to the specified <see cref="Graphics"/>
/// device as a bar at each defined point. This method
/// is normally only called by the <see cref="BarItem.Draw"/> method of the
/// <see cref="BarItem"/> object
/// </summary>
/// <param name="g">
/// A graphic device object to be drawn into. This is normally e.Graphics from the
/// PaintEventArgs argument to the Paint() method.
/// </param>
/// <param name="pane">
/// A reference to the <see cref="GraphPane"/> object that is the parent or
/// owner of this object.
/// </param>
/// <param name="curve">A <see cref="CurveItem"/> object representing the
/// <see cref="Bar"/>'s to be drawn.</param>
/// <param name="baseAxis">The <see cref="Axis"/> class instance that defines the base (independent)
/// axis for the <see cref="Bar"/></param>
/// <param name="valueAxis">The <see cref="Axis"/> class instance that defines the value (dependent)
/// axis for the <see cref="Bar"/></param>
/// <param name="barWidth">
/// The width of each bar, in pixels.
/// </param>
/// <param name="pos">
/// The ordinal position of the this bar series (0=first bar, 1=second bar, etc.)
/// in the cluster of bars.
/// </param>
/// <param name="scaleFactor">
/// The scaling factor to be used for rendering objects. This is calculated and
/// passed down by the parent <see cref="GraphPane"/> object using the
/// <see cref="PaneBase.CalcScaleFactor"/> method, and is used to proportionally adjust
/// font sizes, etc. according to the actual size of the graph.
/// </param>
public void DrawBars( Graphics g, GraphPane pane, CurveItem curve,
Axis baseAxis, Axis valueAxis,
float barWidth, int pos, float scaleFactor )
{
// For non-cluster bar types, the position is always zero since the bars are on top
// of eachother
BarType barType = pane._barSettings.Type;
if ( barType == BarType.Overlay || barType == BarType.Stack || barType == BarType.PercentStack ||
barType == BarType.SortedOverlay )
pos = 0;
// Loop over each defined point and draw the corresponding bar
for ( int i=0; i<curve.Points.Count; i++ )
DrawSingleBar( g, pane, curve, i, pos, baseAxis, valueAxis, barWidth, scaleFactor );
}
/// <summary>
/// Find the data point that lies closest to the specified mouse (screen)
/// point.
/// </summary>
/// <remarks>
/// This method will search through all curves in
/// <see cref="GraphPane.CurveList"/> to find which point is
/// nearest. It will only consider points that are within
/// <see cref="Default.NearestTol"/> pixels of the screen point.
/// </remarks>
/// <param name="mousePt">The screen point, in pixel coordinates.</param>
/// <param name="nearestCurve">A reference to the <see cref="CurveItem"/>
/// instance that contains the closest point. nearestCurve will be null if
/// no data points are available.</param>
/// <param name="iNearest">The index number of the closest point. The
/// actual data vpoint will then be <see cref="CurveItem.Points">CurveItem.Points[iNearest]</see>
/// . iNearest will
/// be -1 if no data points are available.</param>
/// <returns>true if a point was found and that point lies within
/// <see cref="Default.NearestTol"/> pixels
/// of the screen point, false otherwise.</returns>
public bool FindNearestPoint( PointF mousePt,
out CurveItem nearestCurve, out int iNearest )
{
return FindNearestPoint( mousePt, _curveList,
out nearestCurve, out iNearest );
}
/// <summary>
/// Find the data point that lies closest to the specified mouse (screen)
/// point for the specified curve.
/// </summary>
/// <remarks>
/// This method will search only through the points for the specified
/// curve to determine which point is
/// nearest the mouse point. It will only consider points that are within
/// <see cref="Default.NearestTol"/> pixels of the screen point.
/// </remarks>
/// <param name="mousePt">The screen point, in pixel coordinates.</param>
/// <param name="nearestCurve">A reference to the <see cref="CurveItem"/>
/// instance that contains the closest point. nearestCurve will be null if
/// no data points are available.</param>
/// <param name="targetCurve">A <see cref="CurveItem"/> object containing
/// the data points to be searched.</param>
/// <param name="iNearest">The index number of the closest point. The
/// actual data vpoint will then be <see cref="CurveItem.Points">CurveItem.Points[iNearest]</see>
/// . iNearest will
/// be -1 if no data points are available.</param>
/// <returns>true if a point was found and that point lies within
/// <see cref="Default.NearestTol"/> pixels
/// of the screen point, false otherwise.</returns>
public bool FindNearestPoint( PointF mousePt, CurveItem targetCurve,
out CurveItem nearestCurve, out int iNearest )
{
CurveList targetCurveList = new CurveList();
targetCurveList.Add( targetCurve );
return FindNearestPoint( mousePt, targetCurveList,
out nearestCurve, out iNearest );
}
/// <summary>
/// Get the user scale values associate with a particular point of a
/// particular curve.</summary>
/// <remarks>The main purpose of this method is to handle
/// stacked bars and lines, in which case the stacked values are returned rather
/// than the individual data values. However, this method works generically for any
/// curve type.
/// </remarks>
/// <param name="pane">The parent <see cref="GraphPane"/> object.</param>
/// <param name="curve">A <see cref="CurveItem"/> object of interest.</param>
/// <param name="iPt">The zero-based point index for the point of interest.</param>
/// <param name="baseVal">A <see cref="Double"/> value representing the value
/// for the independent axis.</param>
/// <param name="lowVal">A <see cref="Double"/> value representing the lower
/// value for the dependent axis.</param>
/// <param name="hiVal">A <see cref="Double"/> value representing the upper
/// value for the dependent axis.</param>
/// <returns>true if the data point is value, false for
/// <see cref="PointPairBase.Missing"/>, invalid, etc. data.</returns>
public static bool GetValues( GraphPane pane, CurveItem curve, int iPt,
out double baseVal, out double lowVal, out double hiVal )
{
hiVal = PointPair.Missing;
lowVal = PointPair.Missing;
baseVal = PointPair.Missing;
if ( curve == null || curve.Points.Count <= iPt || !curve.IsVisible )
return false;
Axis baseAxis = curve.BaseAxis( pane );
Axis valueAxis = curve.ValueAxis( pane );
if ( baseAxis is XAxis || baseAxis is X2Axis )
baseVal = curve.Points[iPt].X;
else
baseVal = curve.Points[iPt].Y;
// is it a stacked bar type?
if ( curve is BarItem && ( pane._barSettings.Type == BarType.Stack ||
pane._barSettings.Type == BarType.PercentStack ) )
{
double positiveStack = 0;
double negativeStack = 0;
double curVal;
// loop through all the curves, summing up the values to get a total (only
// for the current ordinal position iPt)
foreach ( CurveItem tmpCurve in pane.CurveList )
{
// Sum the value for the current curve only if it is a bar
if ( tmpCurve.IsBar && tmpCurve.IsVisible )
{
curVal = PointPair.Missing;
// For non-ordinal curves, find a matching base value (must match exactly)
if ( curve.IsOverrideOrdinal || !baseAxis._scale.IsAnyOrdinal )
{
IPointList points = tmpCurve.Points;
for ( int i=0; i<points.Count; i++ )
{
if ( ( baseAxis is XAxis || baseAxis is X2Axis ) && points[i].X == baseVal )
{
curVal = points[i].Y;
break;
}
else if ( !(baseAxis is XAxis || baseAxis is X2Axis) && points[i].Y == baseVal )
{
curVal = points[i].X;
break;
}
}
}
// otherwise, it's an ordinal type so use the value at the same ordinal position
else if ( iPt < tmpCurve.Points.Count )
{
// Get the value for the appropriate value axis
if ( baseAxis is XAxis || baseAxis is X2Axis )
curVal = tmpCurve.Points[iPt].Y;
else
curVal = tmpCurve.Points[iPt].X;
}
// If it's a missing value, skip it
if ( curVal == PointPair.Missing )
{
positiveStack = PointPair.Missing;
negativeStack = PointPair.Missing;
}
// the current curve is the target curve, save the summed values for later
if ( tmpCurve == curve )
{
// if the value is positive, use the positive stack
if ( curVal >= 0 )
{
lowVal = positiveStack;
hiVal = ( curVal == PointPair.Missing || positiveStack == PointPair.Missing ) ?
PointPair.Missing : positiveStack + curVal;
}
// otherwise, use the negative stack
else
{
hiVal = negativeStack;
lowVal = ( curVal == PointPair.Missing || negativeStack == PointPair.Missing ) ?
PointPair.Missing : negativeStack + curVal;
}
}
// Add all positive values to the positive stack, and negative values to the
// negative stack
if ( curVal >= 0 )
positiveStack = ( curVal == PointPair.Missing || positiveStack == PointPair.Missing ) ?
PointPair.Missing : positiveStack + curVal;
else
negativeStack = ( curVal == PointPair.Missing || negativeStack == PointPair.Missing ) ?
PointPair.Missing : negativeStack + curVal;
}
}
// if the curve is a PercentStack type, then calculate the percent for this bar
// based on the total height of the stack
if ( pane._barSettings.Type == BarType.PercentStack &&
hiVal != PointPair.Missing && lowVal != PointPair.Missing )
{
// Use the total magnitude of the positive plus negative bar stacks to determine
// the percentage value
positiveStack += Math.Abs( negativeStack );
// just to avoid dividing by zero...
if ( positiveStack != 0 )
{
// calculate the percentage values
lowVal = lowVal / positiveStack * 100.0;
hiVal = hiVal / positiveStack * 100.0;
}
else
{
lowVal = 0;
hiVal = 0;
}
}
if ( baseVal == PointPair.Missing || lowVal == PointPair.Missing ||
hiVal == PointPair.Missing )
return false;
else
return true;
}
// If the curve is a stacked line type, then sum up the values similar to the stacked bar type
else if ( curve is LineItem && pane.LineType == LineType.Stack )
{
double stack = 0;
double curVal;
// loop through all the curves, summing up the values to get a total (only
// for the current ordinal position iPt)
foreach ( CurveItem tmpCurve in pane.CurveList )
{
// make sure the curve is a Line type
if ( tmpCurve is LineItem && tmpCurve.IsVisible )
{
curVal = PointPair.Missing;
// For non-ordinal curves, find a matching base value (must match exactly)
if ( curve.IsOverrideOrdinal || !baseAxis._scale.IsAnyOrdinal )
{
IPointList points = tmpCurve.Points;
for ( int i = 0; i < points.Count; i++ )
{
if ( points[i].X == baseVal )
{
curVal = points[i].Y;
break;
}
}
}
// otherwise, it's an ordinal type so use the value at the same ordinal position
else if ( iPt < tmpCurve.Points.Count )
{
// For line types, the Y axis is always the value axis
curVal = tmpCurve.Points[iPt].Y;
}
// if the current value is missing, then the rest of the stack is missing
if ( curVal == PointPair.Missing )
stack = PointPair.Missing;
// if the current curve is the target curve, save the values
if ( tmpCurve == curve )
{
lowVal = stack;
// if ( curVal < 0 && stack == 0 )
// {
// stack = curVal;
// lowVal = curVal;
// hiVal = curVal;
// }
// else
hiVal = ( curVal == PointPair.Missing || stack == PointPair.Missing ) ?
PointPair.Missing : stack + curVal;
}
// sum all the curves to a single total. This includes both positive and
// negative values (unlike the bar stack type).
stack = ( curVal == PointPair.Missing || stack == PointPair.Missing ) ?
PointPair.Missing : stack + curVal;
}
}
if ( baseVal == PointPair.Missing || lowVal == PointPair.Missing ||
hiVal == PointPair.Missing )
return false;
else
return true;
}
// otherwise, the curve is not a stacked type (not a stacked bar or stacked line)
else
{
if ((!(curve is HiLowBarItem)) && (!(curve is ErrorBarItem)))
lowVal = 0;
else
lowVal = curve.Points[iPt].LowValue;
if ( baseAxis is XAxis || baseAxis is X2Axis )
hiVal = curve.Points[iPt].Y;
else
hiVal = curve.Points[iPt].X;
}
// Special Exception: Bars on log scales should always plot from the Min value upwards,
// since they can never be zero
if ( curve is BarItem && valueAxis._scale.IsLog && lowVal == 0 )
lowVal = valueAxis._scale._min;
if ( baseVal == PointPair.Missing || hiVal == PointPair.Missing ||
( lowVal == PointPair.Missing && ( curve is ErrorBarItem ||
curve is HiLowBarItem ) ) )
return false;
else
return true;
}
/// <summary>
/// Render the <see cref="Line"/>'s as vertical sticks (from a <see cref="StickItem" />) to
/// the specified <see cref="Graphics"/> device.
/// </summary>
/// <param name="g">
/// A graphic device object to be drawn into. This is normally e.Graphics from the
/// PaintEventArgs argument to the Paint() method.
/// </param>
/// <param name="pane">
/// A reference to the <see cref="ZedGraph.GraphPane"/> object that is the parent or
/// owner of this object.
/// </param>
/// <param name="curve">A <see cref="CurveItem"/> representing this
/// curve.</param>
/// <param name="scaleFactor">
/// The scaling factor to be used for rendering objects. This is calculated and
/// passed down by the parent <see cref="GraphPane"/> object using the
/// <see cref="PaneBase.CalcScaleFactor"/> method, and is used to proportionally adjust
/// font sizes, etc. according to the actual size of the graph.
/// </param>
public void DrawSticks( Graphics g, GraphPane pane, CurveItem curve, float scaleFactor )
{
Line source = this;
if ( curve.IsSelected )
source = Selection.Line;
Axis yAxis = curve.GetYAxis( pane );
Axis xAxis = curve.GetXAxis( pane );
float basePix = yAxis.Scale.Transform( 0.0 );
using ( Pen pen = source.GetPen( pane, scaleFactor ) )
{
for ( int i = 0; i < curve.Points.Count; i++ )
{
PointPair pt = curve.Points[i];
if ( pt.X != PointPair.Missing &&
pt.Y != PointPair.Missing &&
!System.Double.IsNaN( pt.X ) &&
!System.Double.IsNaN( pt.Y ) &&
!System.Double.IsInfinity( pt.X ) &&
!System.Double.IsInfinity( pt.Y ) &&
( !xAxis._scale.IsLog || pt.X > 0.0 ) &&
( !yAxis._scale.IsLog || pt.Y > 0.0 ) )
{
float pixY = yAxis.Scale.Transform( curve.IsOverrideOrdinal, i, pt.Y );
float pixX = xAxis.Scale.Transform( curve.IsOverrideOrdinal, i, pt.X );
if ( pixX >= pane.Chart._rect.Left && pixX <= pane.Chart._rect.Right )
{
if ( pixY > pane.Chart._rect.Bottom )
pixY = pane.Chart._rect.Bottom;
if ( pixY < pane.Chart._rect.Top )
pixY = pane.Chart._rect.Top;
if ( !curve.IsSelected && this._gradientFill.IsGradientValueType )
{
using ( Pen tPen = GetPen( pane, scaleFactor, pt ) )
g.DrawLine( tPen, pixX, pixY, pixX, basePix );
}
else
g.DrawLine( pen, pixX, pixY, pixX, basePix );
}
}
}
}
}
/// <summary>
/// Create a URL for a <see cref="CurveItem" /> that includes the index of the
/// point that was selected.
/// </summary>
/// <remarks>
/// An "index" parameter is added to the <see cref="Url" /> property for this
/// link to indicate which point was selected. Further, if the
/// X or Y axes that correspond to this <see cref="CurveItem" /> are of
/// <see cref="AxisType.Text" />, then an
/// additional parameter will be added containing the text value that
/// corresponds to the <paramref name="index" /> of the selected point.
/// The <see cref="XAxis" /> text parameter will be labeled "xtext", and
/// the <see cref="YAxis" /> text parameter will be labeled "ytext".
/// </remarks>
/// <param name="index">The zero-based index of the selected point</param>
/// <param name="pane">The <see cref="GraphPane" /> of interest</param>
/// <param name="curve">The <see cref="CurveItem" /> for which to
/// make the url string.</param>
/// <returns>A string containing the url with an index parameter added.</returns>
public virtual string MakeCurveItemUrl( GraphPane pane, CurveItem curve, int index )
{
string url = _url;
if ( url.IndexOf( '?' ) >= 0 )
url += "&index=" + index.ToString();
else
url += "?index=" + index.ToString();
Axis xAxis = curve.GetXAxis( pane );
if ( xAxis.Type == AxisType.Text && index >= 0 &&
xAxis.Scale.TextLabels != null &&
index <= xAxis.Scale.TextLabels.Length )
url += "&xtext=" + xAxis.Scale.TextLabels[index];
Axis yAxis = curve.GetYAxis( pane );
if ( yAxis != null && yAxis.Type == AxisType.Text && index >= 0 &&
yAxis.Scale.TextLabels != null &&
index <= yAxis.Scale.TextLabels.Length )
url += "&ytext=" + yAxis.Scale.TextLabels[index];
return url;
}
/// <summary>
/// This method just handles the case where one or more of the coordinates are outrageous,
/// or GDI+ threw an exception. This method attempts to correct the outrageous coordinates by
/// interpolating them to a point (along the original line) that lies at the edge of the ChartRect
/// so that GDI+ will handle it properly. GDI+ will throw an exception, or just plot the data
/// incorrectly if the coordinates are too large (empirically, this appears to be when the
/// coordinate value is greater than 5,000,000 or less than -5,000,000). Although you typically
/// would not see coordinates like this, if you repeatedly zoom in on a ZedGraphControl, eventually
/// all your points will be way outside the bounds of the plot.
/// </summary>
private void InterpolatePoint( Graphics g, GraphPane pane, CurveItem curve, PointPair lastPt,
float scaleFactor, Pen pen, float lastX, float lastY, float tmpX, float tmpY )
{
try
{
RectangleF chartRect = pane.Chart._rect;
// try to interpolate values
bool lastIn = chartRect.Contains( lastX, lastY );
bool curIn = chartRect.Contains( tmpX, tmpY );
// If both points are outside the ChartRect, make a new point that is on the LastX/Y
// side of the ChartRect, and fall through to the code that handles lastIn == true
if ( !lastIn )
{
float newX, newY;
if ( Math.Abs( lastX ) > Math.Abs( lastY ) )
{
newX = lastX < 0 ? chartRect.Left : chartRect.Right;
newY = lastY + ( tmpY - lastY ) * ( newX - lastX ) / ( tmpX - lastX );
}
else
{
newY = lastY < 0 ? chartRect.Top : chartRect.Bottom;
newX = lastX + ( tmpX - lastX ) * ( newY - lastY ) / ( tmpY - lastY );
}
lastX = newX;
lastY = newY;
}
if ( !curIn )
{
float newX, newY;
if ( Math.Abs( tmpX ) > Math.Abs( tmpY ) )
{
newX = tmpX < 0 ? chartRect.Left : chartRect.Right;
newY = tmpY + ( lastY - tmpY ) * ( newX - tmpX ) / ( lastX - tmpX );
}
else
{
newY = tmpY < 0 ? chartRect.Top : chartRect.Bottom;
newX = tmpX + ( lastX - tmpX ) * ( newY - tmpY ) / ( lastY - tmpY );
}
tmpX = newX;
tmpY = newY;
}
/*
if ( this.StepType == StepType.ForwardStep )
{
g.DrawLine( pen, lastX, lastY, tmpX, lastY );
g.DrawLine( pen, tmpX, lastY, tmpX, tmpY );
}
else if ( this.StepType == StepType.RearwardStep )
{
g.DrawLine( pen, lastX, lastY, lastX, tmpY );
g.DrawLine( pen, lastX, tmpY, tmpX, tmpY );
}
else // non-step
g.DrawLine( pen, lastX, lastY, tmpX, tmpY );
*/
if ( !curve.IsSelected && this._gradientFill.IsGradientValueType )
{
using ( Pen tPen = GetPen( pane, scaleFactor, lastPt ) )
{
if ( this.StepType == StepType.NonStep )
{
g.DrawLine( tPen, lastX, lastY, tmpX, tmpY );
}
else if ( this.StepType == StepType.ForwardStep )
{
g.DrawLine( tPen, lastX, lastY, tmpX, lastY );
g.DrawLine( tPen, tmpX, lastY, tmpX, tmpY );
}
else if ( this.StepType == StepType.RearwardStep )
{
g.DrawLine( tPen, lastX, lastY, lastX, tmpY );
g.DrawLine( tPen, lastX, tmpY, tmpX, tmpY );
}
else if ( this.StepType == StepType.ForwardSegment )
{
g.DrawLine( tPen, lastX, lastY, tmpX, lastY );
}
else
{
g.DrawLine( tPen, lastX, tmpY, tmpX, tmpY );
}
}
}
else
{
if ( this.StepType == StepType.NonStep )
{
g.DrawLine( pen, lastX, lastY, tmpX, tmpY );
}
else if ( this.StepType == StepType.ForwardStep )
{
g.DrawLine( pen, lastX, lastY, tmpX, lastY );
g.DrawLine( pen, tmpX, lastY, tmpX, tmpY );
}
else if ( this.StepType == StepType.RearwardStep )
{
g.DrawLine( pen, lastX, lastY, lastX, tmpY );
g.DrawLine( pen, lastX, tmpY, tmpX, tmpY );
}
else if ( this.StepType == StepType.ForwardSegment )
{
g.DrawLine( pen, lastX, lastY, tmpX, lastY );
}
else if ( this.StepType == StepType.RearwardSegment )
{
g.DrawLine( pen, lastX, tmpY, tmpX, tmpY );
}
}
}
catch { }
}
/// <summary>
/// Remove the specified <see cref="CurveItem" /> from the selection list.
/// </summary>
/// <param name="master">The <see cref="MasterPane" /> that is the "owner"
/// of the <see cref="CurveItem" />'s.</param>
/// <param name="ci">The <see cref="CurveItem" /> to be removed from the list.</param>
public void RemoveFromSelection( MasterPane master, CurveItem ci )
{
if ( this.Contains( ci ) )
this.Remove( ci );
UpdateSelection( master );
}
/// <summary>
/// Build an array of <see cref="PointF"/> values (pixel coordinates) that represents
/// the low values for the current curve.
/// </summary>
/// <remarks>Note that this drawing routine ignores <see cref="PointPairBase.Missing"/>
/// values, but it does not "break" the line to indicate values are missing.
/// </remarks>
/// <param name="pane">A reference to the <see cref="GraphPane"/> object that is the parent or
/// owner of this object.</param>
/// <param name="curve">A <see cref="LineItem"/> representing this
/// curve.</param>
/// <param name="arrPoints">An array of <see cref="PointF"/> values in pixel
/// coordinates representing the current curve.</param>
/// <param name="count">The number of points contained in the "arrPoints"
/// parameter.</param>
/// <returns>true for a successful points array build, false for data problems</returns>
public bool BuildLowPointsArray( GraphPane pane, CurveItem curve,
out PointF[] arrPoints, out int count )
{
arrPoints = null;
count = 0;
IPointList points = curve.Points;
if ( this.IsVisible && !this.Color.IsEmpty && points != null )
{
int index = 0;
float curX, curY,
lastX = 0,
lastY = 0;
double x, y, hiVal;
ValueHandler valueHandler = new ValueHandler( pane, false );
// Step type plots get twice as many points. Always add three points so there is
// room to close out the curve for area fills.
arrPoints = new PointF[( _stepType == ZedGraph.StepType.NonStep ? 1 : 2 ) *
( pane.LineType == LineType.Stack ? 2 : 1 ) *
points.Count + 1];
// Loop backwards over all points in the curve
// In this case an array of points was already built forward by BuildPointsArray().
// This time we build backwards to complete a loop around the area between two curves.
for ( int i = points.Count - 1; i >= 0; i-- )
{
// Make sure the current point is valid
if ( !points[i].IsInvalid )
{
// Get the user scale values for the current point
valueHandler.GetValues( curve, i, out x, out y, out hiVal );
if ( x == PointPair.Missing || y == PointPair.Missing )
continue;
// Transform the user scale values to pixel locations
Axis xAxis = curve.GetXAxis( pane );
curX = xAxis.Scale.Transform( curve.IsOverrideOrdinal, i, x );
Axis yAxis = curve.GetYAxis( pane );
curY = yAxis.Scale.Transform( curve.IsOverrideOrdinal, i, y );
// Add the pixel value pair into the points array
// Two points are added for step type curves
// ignore step-type setting for smooth curves
if ( _isSmooth || index == 0 || this.StepType == StepType.NonStep )
{
arrPoints[index].X = curX;
arrPoints[index].Y = curY;
}
else if ( this.StepType == StepType.ForwardStep )
{
arrPoints[index].X = curX;
arrPoints[index].Y = lastY;
index++;
arrPoints[index].X = curX;
arrPoints[index].Y = curY;
}
else if ( this.StepType == StepType.RearwardStep )
{
arrPoints[index].X = lastX;
arrPoints[index].Y = curY;
index++;
arrPoints[index].X = curX;
arrPoints[index].Y = curY;
}
lastX = curX;
lastY = curY;
index++;
}
}
// Make sure there is at least one valid point
if ( index == 0 )
return false;
// Add an extra point at the end, since the smoothing algorithm requires it
arrPoints[index] = arrPoints[index - 1];
index++;
count = index;
return true;
}
else
{
return false;
}
}
/// <summary>
/// Place a <see cref="CurveItem" /> in the selection list, removing all other
/// items.
/// </summary>
/// <param name="master">The <see cref="MasterPane" /> that is the "owner"
/// of the <see cref="CurveItem" />'s.</param>
/// <param name="ci">The <see cref="CurveItem" /> to be added to the list.</param>
public void Select( MasterPane master, CurveItem ci )
{
//Clear the selection, but don't send the event,
//the event will be sent in "AddToSelection" by calling "UpdateSelection"
ClearSelection( master, false );
AddToSelection( master, ci );
}
/// <summary>
/// Close off a <see cref="GraphicsPath"/> that defines a curve
/// </summary>
/// <param name="pane">A reference to the <see cref="GraphPane"/> object that is the parent or
/// owner of this object.</param>
/// <param name="curve">A <see cref="LineItem"/> representing this
/// curve.</param>
/// <param name="arrPoints">An array of <see cref="PointF"/> values in screen pixel
/// coordinates representing the current curve.</param>
/// <param name="count">The number of points contained in the "arrPoints"
/// parameter.</param>
/// <param name="yMin">The Y axis value location where the X axis crosses.</param>
/// <param name="path">The <see cref="GraphicsPath"/> class that represents the curve.</param>
public void CloseCurve( GraphPane pane, CurveItem curve, PointF[] arrPoints,
int count, double yMin, GraphicsPath path )
{
// For non-stacked lines, the fill area is just the area between the curve and the X axis
if ( pane.LineType != LineType.Stack )
{
// Determine the current value for the bottom of the curve (usually the Y value where
// the X axis crosses)
float yBase;
Axis yAxis = curve.GetYAxis( pane );
yBase = yAxis.Scale.Transform( yMin );
// Add three points to the path to move from the end of the curve (as defined by
// arrPoints) to the X axis, from there to the start of the curve at the X axis,
// and from there back up to the beginning of the curve.
path.AddLine( arrPoints[count - 1].X, arrPoints[count - 1].Y, arrPoints[count - 1].X, yBase );
path.AddLine( arrPoints[count - 1].X, yBase, arrPoints[0].X, yBase );
path.AddLine( arrPoints[0].X, yBase, arrPoints[0].X, arrPoints[0].Y );
}
// For stacked line types, the fill area is the area between this curve and the curve below it
else
{
PointF[] arrPoints2;
int count2;
float tension = _isSmooth ? _smoothTension : 0f;
// Find the next lower curve in the curveList that is also a LineItem type, and use
// its smoothing properties for the lower side of the filled area.
int index = pane.CurveList.IndexOf( curve );
if ( index > 0 )
{
CurveItem tmpCurve;
for ( int i = index - 1; i >= 0; i-- )
{
tmpCurve = pane.CurveList[i];
if ( tmpCurve is LineItem )
{
tension = ( (LineItem)tmpCurve ).Line.IsSmooth ? ( (LineItem)tmpCurve ).Line.SmoothTension : 0f;
break;
}
}
}
// Build another points array consisting of the low points (which are actually the points for
// the curve below the current curve)
BuildLowPointsArray( pane, curve, out arrPoints2, out count2 );
// Add the new points to the GraphicsPath
path.AddCurve( arrPoints2, 0, count2 - 2, tension );
}
}
//public static Color SelectedSymbolColor = Color.Gray;
#endregion Other
#if ( DOTNET1 )
// Define a "Contains" method so that this class works with .Net 1.1 or 2.0
internal bool Contains( CurveItem item )
{
foreach ( CurveItem ci in this )
if ( item == ci )
return true;
return false;
}
/// <summary>
/// Draw the this <see cref="CurveItem"/> to the specified <see cref="Graphics"/>
/// device. The format (stair-step or line) of the curve is
/// defined by the <see cref="StepType"/> property. The routine
/// only draws the line segments; the symbols are drawn by the
/// <see cref="Symbol.Draw"/> method. This method
/// is normally only called by the Draw method of the
/// <see cref="CurveItem"/> object
/// </summary>
/// <param name="g">
/// A graphic device object to be drawn into. This is normally e.Graphics from the
/// PaintEventArgs argument to the Paint() method.
/// </param>
/// <param name="scaleFactor">
/// The scaling factor to be used for rendering objects. This is calculated and
/// passed down by the parent <see cref="GraphPane"/> object using the
/// <see cref="PaneBase.CalcScaleFactor"/> method, and is used to proportionally adjust
/// font sizes, etc. according to the actual size of the graph.
/// </param>
/// <param name="pane">
/// A reference to the <see cref="GraphPane"/> object that is the parent or
/// owner of this object.
/// </param>
/// <param name="curve">A <see cref="LineItem"/> representing this
/// curve.</param>
public void DrawCurveOriginal( Graphics g, GraphPane pane,
CurveItem curve, float scaleFactor )
{
Line source = this;
if ( curve.IsSelected )
source = Selection.Line;
float tmpX, tmpY,
lastX = float.MaxValue,
lastY = float.MaxValue;
double curX, curY, lowVal;
PointPair curPt, lastPt = new PointPair();
bool lastBad = true;
IPointList points = curve.Points;
ValueHandler valueHandler = new ValueHandler( pane, false );
Axis yAxis = curve.GetYAxis( pane );
Axis xAxis = curve.GetXAxis( pane );
bool xIsLog = xAxis._scale.IsLog;
bool yIsLog = yAxis._scale.IsLog;
float minX = pane.Chart.Rect.Left;
float maxX = pane.Chart.Rect.Right;
float minY = pane.Chart.Rect.Top;
float maxY = pane.Chart.Rect.Bottom;
using ( Pen pen = source.GetPen( pane, scaleFactor ) )
{
if ( points != null && !_color.IsEmpty && this.IsVisible )
{
//bool lastOut = false;
bool isOut;
// Loop over each point in the curve
for ( int i = 0; i < points.Count; i++ )
{
curPt = points[i];
if ( pane.LineType == LineType.Stack )
{
if ( !valueHandler.GetValues( curve, i, out curX, out lowVal, out curY ) )
{
curX = PointPair.Missing;
curY = PointPair.Missing;
}
}
else
{
curX = curPt.X;
curY = curPt.Y;
}
// Any value set to double max is invalid and should be skipped
// This is used for calculated values that are out of range, divide
// by zero, etc.
// Also, any value <= zero on a log scale is invalid
if ( curX == PointPair.Missing ||
curY == PointPair.Missing ||
System.Double.IsNaN( curX ) ||
System.Double.IsNaN( curY ) ||
System.Double.IsInfinity( curX ) ||
System.Double.IsInfinity( curY ) ||
( xIsLog && curX <= 0.0 ) ||
( yIsLog && curY <= 0.0 ) )
{
// If the point is invalid, then make a linebreak only if IsIgnoreMissing is false
// LastX and LastY are always the last valid point, so this works out
lastBad = lastBad || !pane.IsIgnoreMissing;
isOut = true;
}
else
{
// Transform the current point from user scale units to
// screen coordinates
tmpX = xAxis.Scale.Transform( curve.IsOverrideOrdinal, i, curX );
tmpY = yAxis.Scale.Transform( curve.IsOverrideOrdinal, i, curY );
isOut = ( tmpX < minX && lastX < minX ) || ( tmpX > maxX && lastX > maxX ) ||
( tmpY < minY && lastY < minY ) || ( tmpY > maxY && lastY > maxY );
if ( !lastBad )
{
try
{
// GDI+ plots the data wrong and/or throws an exception for
// outrageous coordinates, so we do a sanity check here
if ( lastX > 5000000 || lastX < -5000000 ||
lastY > 5000000 || lastY < -5000000 ||
tmpX > 5000000 || tmpX < -5000000 ||
tmpY > 5000000 || tmpY < -5000000 )
InterpolatePoint( g, pane, curve, lastPt, scaleFactor, pen,
lastX, lastY, tmpX, tmpY );
else if ( !isOut )
{
if ( !curve.IsSelected && this._gradientFill.IsGradientValueType )
{
using ( Pen tPen = GetPen( pane, scaleFactor, lastPt ) )
{
if ( this.StepType == StepType.NonStep )
{
g.DrawLine( tPen, lastX, lastY, tmpX, tmpY );
}
else if ( this.StepType == StepType.ForwardStep )
{
g.DrawLine( tPen, lastX, lastY, tmpX, lastY );
g.DrawLine( tPen, tmpX, lastY, tmpX, tmpY );
}
else if ( this.StepType == StepType.RearwardStep )
{
g.DrawLine( tPen, lastX, lastY, lastX, tmpY );
g.DrawLine( tPen, lastX, tmpY, tmpX, tmpY );
}
else if ( this.StepType == StepType.ForwardSegment )
{
g.DrawLine( tPen, lastX, lastY, tmpX, lastY );
}
else
{
g.DrawLine( tPen, lastX, tmpY, tmpX, tmpY );
}
}
}
else
{
if ( this.StepType == StepType.NonStep )
{
g.DrawLine( pen, lastX, lastY, tmpX, tmpY );
}
else if ( this.StepType == StepType.ForwardStep )
{
g.DrawLine( pen, lastX, lastY, tmpX, lastY );
g.DrawLine( pen, tmpX, lastY, tmpX, tmpY );
}
else if ( this.StepType == StepType.RearwardStep )
{
g.DrawLine( pen, lastX, lastY, lastX, tmpY );
g.DrawLine( pen, lastX, tmpY, tmpX, tmpY );
}
else if ( this.StepType == StepType.ForwardSegment )
{
g.DrawLine( pen, lastX, lastY, tmpX, lastY );
}
else if ( this.StepType == StepType.RearwardSegment )
{
g.DrawLine( pen, lastX, tmpY, tmpX, tmpY );
}
}
}
}
catch
{
InterpolatePoint( g, pane, curve, lastPt, scaleFactor, pen,
lastX, lastY, tmpX, tmpY );
}
}
lastPt = curPt;
lastX = tmpX;
lastY = tmpY;
lastBad = false;
//lastOut = isOut;
}
}
}
}
}
/// <summary>
/// Calculate the user scale position of the center of the specified bar, using the
/// <see cref="Axis"/> as specified by <see cref="BarSettings.Base"/>. This method is
/// used primarily by the
/// <see cref="GraphPane.FindNearestPoint(PointF,out CurveItem,out int)"/> method in order to
/// determine the bar "location," which is defined as the center of the top of the individual bar.
/// </summary>
/// <param name="curve">The <see cref="CurveItem"/> representing the
/// bar of interest.</param>
/// <param name="barWidth">The width of each individual bar. This can be calculated using
/// the <see cref="CurveItem.GetBarWidth"/> method.</param>
/// <param name="iCluster">The cluster number for the bar of interest. This is the ordinal
/// position of the current point. That is, if a particular <see cref="CurveItem"/> has
/// 10 points, then a value of 3 would indicate the 4th point in the data array.</param>
/// <param name="val">The actual independent axis value for the bar of interest.</param>
/// <param name="iOrdinal">The ordinal position of the <see cref="CurveItem"/> of interest.
/// That is, the first bar series is 0, the second is 1, etc. Note that this applies only
/// to the bars. If a graph includes both bars and lines, then count only the bars.</param>
/// <returns>A user scale value position of the center of the bar of interest.</returns>
public double BarCenterValue( CurveItem curve, float barWidth, int iCluster,
double val, int iOrdinal )
{
Axis baseAxis = curve.BaseAxis( _pane );
if ( curve is ErrorBarItem || curve is HiLowBarItem ||
curve is OHLCBarItem || curve is JapaneseCandleStickItem )
{
if ( baseAxis._scale.IsAnyOrdinal && iCluster >= 0 && !curve.IsOverrideOrdinal )
return (double) iCluster + 1.0;
else
return val;
}
else
{
float clusterWidth = _pane._barSettings.GetClusterWidth();
float clusterGap = _pane._barSettings.MinClusterGap * barWidth;
float barGap = barWidth * _pane._barSettings.MinBarGap;
if ( curve.IsBar && _pane._barSettings.Type != BarType.Cluster )
iOrdinal = 0;
float centerPix = baseAxis.Scale.Transform( curve.IsOverrideOrdinal, iCluster, val )
- clusterWidth / 2.0F + clusterGap / 2.0F +
iOrdinal * ( barWidth + barGap ) + 0.5F * barWidth;
return baseAxis.Scale.ReverseTransform( centerPix );
}
}