/// <summary>
/// This method creates gradien color with brightnes.
/// </summary>
/// <param name="beginColor">Start color for gradient.</param>
/// <param name="position">Position used between Start and end color.</param>
/// <returns>Calculated Gradient color from gradient position</returns>
private Color GetBrightGradientColor(Color beginColor, double position)
{
position = position * 2;
double brightness = 0.5;
if (position < brightness)
{
return(ChartGraphics.GetGradientColor(Color.FromArgb(beginColor.A, 255, 255, 255), beginColor, 1 - brightness + position));
}
else if (-brightness + position < 1)
{
return(ChartGraphics.GetGradientColor(beginColor, Color.Black, -brightness + position));
}
else
{
return(Color.FromArgb(beginColor.A, 0, 0, 0));
}
}
/// <summary>
/// Return intensity of lightStyle for Polygons. There are tree types of lights: None,
/// Simplistic and Realistic. None Style have same lightStyle intensity on
/// all polygons. Normal vector doesn’t have influence on this type
/// of lighting. Simplistic style have lightStyle source, which is
/// rotated together with scene. Realistic lighting have fixed lightStyle
/// source and intensity of lightStyle is change when scene is rotated.
/// </summary>
/// <param name="points">Points of the polygon</param>
/// <param name="surfaceColor">Color used for polygons without lighting</param>
/// <param name="visiblePolygon">This flag gets information if polygon is visible or not.</param>
/// <param name="rotation">Y angle ( from -90 to 90 ) Should be used width switchSeriesOrder to get from -180 to 180</param>
/// <param name="surfaceName">Used for lighting of front - back and left - right sides</param>
/// <param name="switchSeriesOrder">Used to calculate real y angle</param>
/// <returns>Color corrected with intensity of lightStyle</returns>
internal Color GetPolygonLight(Point3D[] points, Color surfaceColor, bool visiblePolygon, float rotation, SurfaceNames surfaceName, bool switchSeriesOrder)
{
// Corrected color
Color color = surfaceColor;
// Direction of lightStyle source
Point3D lightSource;
lightSource = new Point3D(0F, 0F, 1F);
// There are tree different lightStyle styles: None, Simplistic and realistic.
switch (_lightStyle)
{
// LightStyle style is None
case LightStyle.None:
{
// Use same color
break;
}
// LightStyle style is Simplistic
case LightStyle.Simplistic:
{
// Find two vectors of polygon
Point3D firstVector = new Point3D();
firstVector.X = points[0].X - points[1].X;
firstVector.Y = points[0].Y - points[1].Y;
firstVector.Z = points[0].Z - points[1].Z;
Point3D secondVector = new Point3D();
secondVector.X = points[2].X - points[1].X;
secondVector.Y = points[2].Y - points[1].Y;
secondVector.Z = points[2].Z - points[1].Z;
// Find Normal vector for Polygon
Point3D normalVector = new Point3D();
normalVector.X = firstVector.Y * secondVector.Z - firstVector.Z * secondVector.Y;
normalVector.Y = firstVector.Z * secondVector.X - firstVector.X * secondVector.Z;
normalVector.Z = firstVector.X * secondVector.Y - firstVector.Y * secondVector.X;
// Polygon is left side ( like side of area chart )
if (surfaceName == SurfaceNames.Left)
{
color = ChartGraphics.GetGradientColor(surfaceColor, Color.Black, 0.15);
}
// Polygon is right side ( like side of area chart )
else if (surfaceName == SurfaceNames.Right)
{
color = ChartGraphics.GetGradientColor(surfaceColor, Color.Black, 0.15);
}
// Polygon is front side ( like side of area chart )
else if (surfaceName == SurfaceNames.Front)
{
color = surfaceColor;
}
// Polygon is back side ( like side of area chart )
else if (surfaceName == SurfaceNames.Back)
{
color = surfaceColor;
}
// Polygon has angle with bottom side ( Line chart or top of area chart )
else
{
float angleLeft;
float angleRight;
// Find angles between lightStyle and polygon for different y-axis angles.
if (switchSeriesOrder)
{
if (rotation > 0 && rotation <= 90)
{
angleLeft = GetAngle(normalVector, _lightVectors[3]);
angleRight = GetAngle(normalVector, _lightVectors[4]);
}
else
{
angleLeft = GetAngle(normalVector, _lightVectors[4]);
angleRight = GetAngle(normalVector, _lightVectors[3]);
}
}
else
{
if (rotation > 0 && rotation <= 90)
{
angleLeft = GetAngle(normalVector, _lightVectors[4]);
angleRight = GetAngle(normalVector, _lightVectors[3]);
}
else
{
angleLeft = GetAngle(normalVector, _lightVectors[3]);
angleRight = GetAngle(normalVector, _lightVectors[4]);
}
}
if (Math.Abs(angleLeft - angleRight) < 0.01)
{
color = ChartGraphics.GetGradientColor(surfaceColor, Color.Black, 0.25);
}
else if (angleLeft < angleRight)
{
color = ChartGraphics.GetGradientColor(surfaceColor, Color.Black, 0.25);
}
else
{
color = ChartGraphics.GetGradientColor(surfaceColor, Color.Black, 0.15);
}
}
break;
}
// LightStyle style is Realistic
default:
{
// Find two vectors of polygon
Point3D firstVector = new Point3D();
firstVector.X = points[0].X - points[1].X;
firstVector.Y = points[0].Y - points[1].Y;
firstVector.Z = points[0].Z - points[1].Z;
Point3D secondVector = new Point3D();
secondVector.X = points[2].X - points[1].X;
secondVector.Y = points[2].Y - points[1].Y;
secondVector.Z = points[2].Z - points[1].Z;
// Find Normal vector for Polygon
Point3D normalVector = new Point3D();
normalVector.X = firstVector.Y * secondVector.Z - firstVector.Z * secondVector.Y;
normalVector.Y = firstVector.Z * secondVector.X - firstVector.X * secondVector.Z;
normalVector.Z = firstVector.X * secondVector.Y - firstVector.Y * secondVector.X;
// ******************************************************************
// Color correction. Angle between Normal vector of polygon and
// vector of lightStyle source is used.
// ******************************************************************
if (surfaceName == SurfaceNames.Front)
{
lightSource.Z *= -1;
color = GetBrightGradientColor(surfaceColor, GetAngle(lightSource, _lightVectors[2]) / Math.PI);
}
else if (surfaceName == SurfaceNames.Back)
{
lightSource.Z *= -1;
color = GetBrightGradientColor(surfaceColor, GetAngle(lightSource, _lightVectors[1]) / Math.PI);
}
else
{
if (visiblePolygon)
{
lightSource.Z *= -1;
}
color = GetBrightGradientColor(surfaceColor, GetAngle(lightSource, normalVector) / Math.PI);
}
break;
}
}
return(color);
}
/// <summary>
/// Return intensity of lightStyle for 3D Cube. There are tree types of lights: None,
/// Simplistic and Realistic. None Style have same lightStyle intensity on
/// all polygons. Normal vector doesn’t have influence on this type
/// of lighting. Simplistic style have lightStyle source, which is
/// rotated together with scene. Realistic lighting have fixed lightStyle
/// source and intensity of lightStyle is change when scene is rotated.
/// </summary>
/// <param name="surfaceColor">Color used for polygons without lighting</param>
/// <param name="front">Color corrected with intensity of lightStyle for Front side of the 3D Rectangle</param>
/// <param name="back">Color corrected with intensity of lightStyle for Back side of the 3D Rectangle</param>
/// <param name="left">Color corrected with intensity of lightStyle for Left side of the 3D Rectangle</param>
/// <param name="right">Color corrected with intensity of lightStyle for Right side of the 3D Rectangle</param>
/// <param name="top">Color corrected with intensity of lightStyle for Top side of the 3D Rectangle</param>
/// <param name="bottom">Color corrected with intensity of lightStyle for Bottom side of the 3D Rectangle</param>
internal void GetLight(Color surfaceColor, out Color front, out Color back, out Color left, out Color right, out Color top, out Color bottom)
{
switch (_lightStyle)
{
// LightStyle style is None
case LightStyle.None:
{
front = surfaceColor;
left = surfaceColor;
top = surfaceColor;
back = surfaceColor;
right = surfaceColor;
bottom = surfaceColor;
break;
}
// LightStyle style is Simplistic
case LightStyle.Simplistic:
{
front = surfaceColor;
left = ChartGraphics.GetGradientColor(surfaceColor, Color.Black, 0.25);
top = ChartGraphics.GetGradientColor(surfaceColor, Color.Black, 0.15);
back = surfaceColor;
right = ChartGraphics.GetGradientColor(surfaceColor, Color.Black, 0.25);
bottom = ChartGraphics.GetGradientColor(surfaceColor, Color.Black, 0.15);
break;
}
// LightStyle style is Realistic
default:
{
// For Right Axis angle Realistic lightStyle should be different
if (_rightAngleAxis)
{
// LightStyle source Vector
Point3D lightSource = new Point3D(0F, 0F, -1F);
Point3D [] rightPRpoints = new Point3D[1];
rightPRpoints[0] = lightSource;
RightAngleProjection(rightPRpoints);
// ******************************************************************
// Color correction. Angle between Normal vector of polygon and
// vector of lightStyle source is used.
// ******************************************************************
if (this._angleY >= 45 || this._angleY <= -45)
{
front = ChartGraphics.GetGradientColor(surfaceColor, Color.Black, GetAngle(lightSource, _lightVectors[1]) / Math.PI);
back = ChartGraphics.GetGradientColor(surfaceColor, Color.Black, GetAngle(lightSource, _lightVectors[2]) / Math.PI);
left = ChartGraphics.GetGradientColor(surfaceColor, Color.Black, 0);
right = ChartGraphics.GetGradientColor(surfaceColor, Color.Black, 0);
}
else
{
front = ChartGraphics.GetGradientColor(surfaceColor, Color.Black, 0);
back = ChartGraphics.GetGradientColor(surfaceColor, Color.Black, 1);
left = ChartGraphics.GetGradientColor(surfaceColor, Color.Black, GetAngle(lightSource, _lightVectors[3]) / Math.PI);
right = ChartGraphics.GetGradientColor(surfaceColor, Color.Black, GetAngle(lightSource, _lightVectors[4]) / Math.PI);
}
top = ChartGraphics.GetGradientColor(surfaceColor, Color.Black, GetAngle(lightSource, _lightVectors[5]) / Math.PI);
bottom = ChartGraphics.GetGradientColor(surfaceColor, Color.Black, GetAngle(lightSource, _lightVectors[6]) / Math.PI);
}
else
{
// LightStyle source Vector
Point3D lightSource = new Point3D(0F, 0F, 1F);
// ******************************************************************
// Color correction. Angle between Normal vector of polygon and
// vector of lightStyle source is used.
// ******************************************************************
front = GetBrightGradientColor(surfaceColor, GetAngle(lightSource, _lightVectors[1]) / Math.PI);
back = GetBrightGradientColor(surfaceColor, GetAngle(lightSource, _lightVectors[2]) / Math.PI);
left = GetBrightGradientColor(surfaceColor, GetAngle(lightSource, _lightVectors[3]) / Math.PI);
right = GetBrightGradientColor(surfaceColor, GetAngle(lightSource, _lightVectors[4]) / Math.PI);
top = GetBrightGradientColor(surfaceColor, GetAngle(lightSource, _lightVectors[5]) / Math.PI);
bottom = GetBrightGradientColor(surfaceColor, GetAngle(lightSource, _lightVectors[6]) / Math.PI);
}
break;
}
}
}
/// <summary>
/// Draws text in specified rectangle.
/// </summary>
/// <param name="graphics">Chart graphics.</param>
/// <param name="textPosition">Text position.</param>
/// <param name="noSpacingForCenteredText">True if text allowed to be outside of position when centered.</param>
/// <param name="getTextPosition">True if position text must be returned by the method.</param>
/// <returns>Text actual position if required.</returns>
internal RectangleF DrawText(ChartGraphics graphics, RectangleF textPosition, bool noSpacingForCenteredText, bool getTextPosition)
{
RectangleF textActualPosition = RectangleF.Empty;
//***************************************************************
//** Adjust text position uing text spacing
//***************************************************************
bool annotationRelative = false;
RectangleF textSpacing = GetTextSpacing(out annotationRelative);
float spacingScaleX = 1f;
float spacingScaleY = 1f;
if (annotationRelative)
{
if (textPosition.Width > 25f)
{
spacingScaleX = textPosition.Width / 50f;
spacingScaleX = Math.Max(1f, spacingScaleX);
}
if (textPosition.Height > 25f)
{
spacingScaleY = textPosition.Height / 50f;
spacingScaleY = Math.Max(1f, spacingScaleY);
}
}
RectangleF textPositionWithSpacing = new RectangleF(textPosition.Location, textPosition.Size);
textPositionWithSpacing.Width -= (textSpacing.Width + textSpacing.X) * spacingScaleX;
textPositionWithSpacing.X += textSpacing.X * spacingScaleX;
textPositionWithSpacing.Height -= (textSpacing.Height + textSpacing.Y) * spacingScaleY;
textPositionWithSpacing.Y += textSpacing.Y * spacingScaleY;
//***************************************************************
//** Replace new line characters
//***************************************************************
string titleText = this.ReplaceKeywords(this.Text.Replace("\\n", "\n"));
//***************************************************************
//** Check if centered text require spacing.
//** Use only half of the spacing required.
//** Apply only for 1 line of text.
//***************************************************************
if (noSpacingForCenteredText &&
titleText.IndexOf('\n') == -1)
{
if (this.Alignment == ContentAlignment.MiddleCenter ||
this.Alignment == ContentAlignment.MiddleLeft ||
this.Alignment == ContentAlignment.MiddleRight)
{
textPositionWithSpacing.Y = textPosition.Y;
textPositionWithSpacing.Height = textPosition.Height;
textPositionWithSpacing.Height -= textSpacing.Height / 2f + textSpacing.Y / 2f;
textPositionWithSpacing.Y += textSpacing.Y / 2f;
}
if (this.Alignment == ContentAlignment.BottomCenter ||
this.Alignment == ContentAlignment.MiddleCenter ||
this.Alignment == ContentAlignment.TopCenter)
{
textPositionWithSpacing.X = textPosition.X;
textPositionWithSpacing.Width = textPosition.Width;
textPositionWithSpacing.Width -= textSpacing.Width / 2f + textSpacing.X / 2f;
textPositionWithSpacing.X += textSpacing.X / 2f;
}
}
// Draw text
using (Brush textBrush = new SolidBrush(this.ForeColor))
{
using (StringFormat format = new StringFormat(StringFormat.GenericTypographic))
{
//***************************************************************
//** Set text format
//***************************************************************
format.FormatFlags = format.FormatFlags ^ StringFormatFlags.LineLimit;
format.Trimming = StringTrimming.EllipsisCharacter;
if (this.Alignment == ContentAlignment.BottomRight ||
this.Alignment == ContentAlignment.MiddleRight ||
this.Alignment == ContentAlignment.TopRight)
{
format.Alignment = StringAlignment.Far;
}
if (this.Alignment == ContentAlignment.BottomCenter ||
this.Alignment == ContentAlignment.MiddleCenter ||
this.Alignment == ContentAlignment.TopCenter)
{
format.Alignment = StringAlignment.Center;
}
if (this.Alignment == ContentAlignment.BottomCenter ||
this.Alignment == ContentAlignment.BottomLeft ||
this.Alignment == ContentAlignment.BottomRight)
{
format.LineAlignment = StringAlignment.Far;
}
if (this.Alignment == ContentAlignment.MiddleCenter ||
this.Alignment == ContentAlignment.MiddleLeft ||
this.Alignment == ContentAlignment.MiddleRight)
{
format.LineAlignment = StringAlignment.Center;
}
//***************************************************************
//** Set shadow color and offset
//***************************************************************
Color textShadowColor = ChartGraphics.GetGradientColor(this.ForeColor, Color.Black, 0.8);
int textShadowOffset = 1;
TextStyle textStyle = this.TextStyle;
if (textStyle == TextStyle.Shadow &&
ShadowOffset != 0)
{
// Draw shadowed text
textShadowColor = ShadowColor;
textShadowOffset = ShadowOffset;
}
if (textStyle == TextStyle.Shadow)
{
textShadowColor = (textShadowColor.A != 255) ? textShadowColor : Color.FromArgb(textShadowColor.A / 2, textShadowColor);
}
//***************************************************************
//** Get text actual position
//***************************************************************
if (getTextPosition)
{
// Measure text size
SizeF textSize = graphics.MeasureStringRel(
this.ReplaceKeywords(_text.Replace("\\n", "\n")),
this.Font,
textPositionWithSpacing.Size,
format);
// Get text position
textActualPosition = new RectangleF(textPositionWithSpacing.Location, textSize);
if (this.Alignment == ContentAlignment.BottomRight ||
this.Alignment == ContentAlignment.MiddleRight ||
this.Alignment == ContentAlignment.TopRight)
{
textActualPosition.X += textPositionWithSpacing.Width - textSize.Width;
}
if (this.Alignment == ContentAlignment.BottomCenter ||
this.Alignment == ContentAlignment.MiddleCenter ||
this.Alignment == ContentAlignment.TopCenter)
{
textActualPosition.X += (textPositionWithSpacing.Width - textSize.Width) / 2f;
}
if (this.Alignment == ContentAlignment.BottomCenter ||
this.Alignment == ContentAlignment.BottomLeft ||
this.Alignment == ContentAlignment.BottomRight)
{
textActualPosition.Y += textPositionWithSpacing.Height - textSize.Height;
}
if (this.Alignment == ContentAlignment.MiddleCenter ||
this.Alignment == ContentAlignment.MiddleLeft ||
this.Alignment == ContentAlignment.MiddleRight)
{
textActualPosition.Y += (textPositionWithSpacing.Height - textSize.Height) / 2f;
}
// Do not allow text to go outside annotation position
textActualPosition.Intersect(textPositionWithSpacing);
}
RectangleF absPosition = graphics.GetAbsoluteRectangle(textPositionWithSpacing);
Title.DrawStringWithStyle(
graphics,
titleText,
this.TextStyle,
this.Font,
absPosition,
this.ForeColor,
textShadowColor,
textShadowOffset,
format,
TextOrientation.Auto
);
}
}
return(textActualPosition);
}