/// <summary>
/// Setups the shading pattern from the specified brush.
/// </summary>
public void SetupFromBrush(XLinearGradientBrush brush, XMatrix matrix)
{
if (brush == null)
throw new ArgumentNullException("brush");
PdfShading shading = new PdfShading(this.document);
shading.SetupFromBrush(brush);
Elements[Keys.Shading] = shading;
Elements[Keys.Matrix] = new PdfLiteral("[" + PdfEncoders.ToString(matrix) + "]");
}
/// <summary>
/// Calculates the space used for the axis title.
/// </summary>
internal override void Format()
{
XGraphics gfx = _rendererParms.Graphics;
AxisTitleRendererInfo atri = ((AxisRendererInfo)_rendererParms.RendererInfo)._axisTitleRendererInfo;
if (atri.AxisTitleText != "")
{
XSize size = gfx.MeasureString(atri.AxisTitleText, atri.AxisTitleFont);
if (atri.AxisTitleOrientation != 0)
{
XPoint[] points = new XPoint[2];
points[0].X = 0;
points[0].Y = 0;
points[1].X = size.Width;
points[1].Y = size.Height;
XMatrix matrix = new XMatrix();
matrix.RotatePrepend(-atri.AxisTitleOrientation);
matrix.TransformPoints(points);
size.Width = Math.Abs(points[1].X - points[0].X);
size.Height = Math.Abs(points[1].Y - points[0].Y);
}
atri.X = 0;
atri.Y = 0;
atri.Height = size.Height;
atri.Width = size.Width;
}
}
/// <summary>
/// Setups the shading pattern from the specified brush.
/// </summary>
internal void SetupFromBrush(XLinearGradientBrush brush, XMatrix matrix, XGraphicsPdfRenderer renderer)
{
if (brush == null)
throw new ArgumentNullException("brush");
PdfShading shading = new PdfShading(_document);
shading.SetupFromBrush(brush, renderer);
Elements[Keys.Shading] = shading;
//Elements[Keys.Matrix] = new PdfLiteral("[" + PdfEncoders.ToString(matrix) + "]");
Elements.SetMatrix(Keys.Matrix, matrix);
}
/// <summary>
/// Creates an XForm from an image brush.
/// </summary>
public static XForm FromImageBrush(DocumentRenderingContext context, ImageBrush brush)
{
XPImage xpImage = ImageBuilder.FromImageBrush(context, brush);
XImage ximage = xpImage.XImage;
double width = ximage.PixelWidth;
double height = ximage.PixelHeight;
// view box in point
// XRect box = new XRect(brush.Viewbox.X * 0.75, brush.Viewbox.Y * 0.75, brush.Viewbox.Width * 0.75, brush.Viewbox.Height * 0.75);
XRect box = new XRect(0, 0, width, height);
XForm xform = new XForm(context.PdfDocument, box);
PdfContentWriter formWriter = new PdfContentWriter(context, xform, RenderMode.Default);
Debug.Assert(ximage != null);
PdfFormXObject pdfForm = xform.PdfForm;
pdfForm.Elements.SetMatrix(PdfFormXObject.Keys.Matrix, new XMatrix());
//formWriter.Size = brush.Viewport.Size;
formWriter.BeginContentRaw();
string imageID = formWriter.Resources.AddImage(new PdfImage(context.PdfDocument, ximage));
XMatrix matrix = new XMatrix();
double scaleX = brush.Viewport.Width / brush.Viewbox.Width * 4 / 3 * ximage.PointWidth;
double scaleY = brush.Viewport.Height / brush.Viewbox.Height * 4 / 3 * ximage.PointHeight;
matrix.TranslatePrepend(-brush.Viewbox.X, -brush.Viewbox.Y);
matrix.ScalePrepend(scaleX, scaleY);
matrix.TranslatePrepend(brush.Viewport.X / scaleX, brush.Viewport.Y / scaleY);
matrix = new XMatrix(width, 0, 0, -height, 0, height);
formWriter.WriteLiteral("q\n");
// TODO:WriteClip(path.Data);
//formWriter.WriteLiteral("{0:0.###} 0 0 -{1:0.###} {2:0.###} {3:0.###} cm 100 Tz {4} Do Q\n",
// matrix.M11, matrix.M22, matrix.OffsetX, matrix.OffsetY + brush.Viewport.Height, imageID);
formWriter.WriteMatrix(matrix);
formWriter.WriteLiteral(imageID + " Do Q\n");
formWriter.EndContent();
return xform;
}
/// <summary>
/// Creates a literal from an XMatrix
/// </summary>
public static PdfLiteral FromMatrix(XMatrix matrix)
{
return new PdfLiteral("[" + PdfEncoders.ToString(matrix) + "]");
}
/// Converts the specified value to XMatrix.
/// If the value not exists, the function returns an identity matrix.
/// If the value is not convertible, the function throws an InvalidCastException.
public XMatrix GetMatrix(string key, bool create)
{
XMatrix value = new XMatrix();
object obj = this[key];
if (obj == null)
{
if (create)
this[key] = new PdfLiteral("[1 0 0 1 0 0]"); // cannot be parsed, implement a PdfMatrix...
return value;
}
if (obj is PdfReference)
obj = ((PdfReference)obj).Value;
PdfArray array = obj as PdfArray;
if (array != null && array.Elements.Count == 6)
{
value = new XMatrix(array.Elements.GetReal(0), array.Elements.GetReal(1), array.Elements.GetReal(2),
array.Elements.GetReal(3), array.Elements.GetReal(4), array.Elements.GetReal(5));
}
else if (obj is PdfLiteral)
{
throw new NotImplementedException("Parsing matrix from literal.");
}
else
throw new InvalidCastException("Element is not an array with 6 values.");
return value;
}
/// <summary>
/// Gets or sets the transformation matrix.
/// </summary>
void AddTransform(XMatrix transform, XMatrixOrder order)
{
//if (!this.transform.Equals(value))
{
XMatrix matrix = this.transform;
matrix.Multiply(transform, order);
this.transform = matrix;
matrix = this.defaultViewMatrix;
matrix.Multiply(this.transform, XMatrixOrder.Prepend);
#if GDI
if (this.targetContext == XGraphicTargetContext.GDI)
{
#if DEBUG
System.Drawing.Drawing2D.Matrix m = (System.Drawing.Drawing2D.Matrix)matrix;
this.gfx.Transform = m;
#else
this.gfx.Transform = (System.Drawing.Drawing2D.Matrix)matrix;
#endif
}
#endif
#if WPF
if (this.targetContext == XGraphicTargetContext.WPF)
{
#if !SILVERLIGHT
MatrixTransform mt = new MatrixTransform(transform.ToWpfMatrix());
#else
MatrixTransform mt = new MatrixTransform();
mt.Matrix = transform.ToWpfMatrix();
#endif
if (order == XMatrixOrder.Append)
mt = (MatrixTransform)mt.Inverse;
this.gsStack.Current.SetTransform(mt);
}
#endif
if (this.renderer != null)
this.renderer.Transform = this.transform;
}
}
/// <summary>
/// Multiplies the transformation matrix of this object and specified matrix.
/// </summary>
public void MultiplyTransform(XMatrix matrix)
{
//MultiplyTransform(matrix, XMatrixOrder.Prepend);
XMatrix matrix2 = new XMatrix(); //XMatrix.Identity;
matrix2.Prepend(matrix);
AddTransform(matrix2, XMatrixOrder.Prepend);
}
/// <summary>
/// Applies the specified rotation operation to the transformation matrix of this object by
/// prepending it to the object's transformation matrix.
/// </summary>
public void RotateAtTransform(double angle, XPoint point, XMatrixOrder order)
{
//XMatrix matrix = this.transform;
//matrix.RotateAt(angle, point, order);
//Transform = matrix;
XMatrix matrix = new XMatrix(); //XMatrix.Identity;
matrix.RotateAtPrepend(angle, point);
AddTransform(matrix, order);
}
/// <summary>
/// Applies the specified rotation operation to the transformation matrix of this object
/// in the specified order. The angle unit of measure is degree.
/// </summary>
public void RotateTransform(double angle, XMatrixOrder order)
{
//XMatrix matrix = this.transform;
//matrix.Rotate(angle, order);
//Transform = matrix;
XMatrix matrix = new XMatrix(); //XMatrix.Identity;
matrix.RotatePrepend(angle);
AddTransform(matrix, order);
}
public XMatrix MultiplyTransform(XMatrix matrix)
{
this.transform.Prepend(matrix);
return this.transform;
}
//+-------------------------------------------------------------------------------------------------
//
// Function: ArcToBezier
//
// Synopsis: Compute the Bezier approximation of an arc
//
// Notes: This utilitycomputes the Bezier approximation for an elliptical arc as it is defined
// in the SVG arc spec. The ellipse from which the arc is carved is axis-aligned in its
// own coordinates, and defined there by its x and y radii. The rotation angle defines
// how the ellipse's axes are rotated relative to our x axis. The start and end points
// define one of 4 possible arcs; the sweep and large-arc flags determine which one of
// these arcs will be chosen. See SVG spec for details.
//
// Returning pieces = 0 indicates a line instead of an arc
// pieces = -1 indicates that the arc degenerates to a point
//
//--------------------------------------------------------------------------------------------------
public static PointCollection ArcToBezier(double xStart, double yStart, double xRadius, double yRadius, double rotationAngle,
bool isLargeArc, bool isClockwise, double xEnd, double yEnd, out int pieces)
{
double cosArcAngle, sinArcAngle, xCenter, yCenter, r, bezDist;
XVector vecToBez1, vecToBez2;
XMatrix matToEllipse;
double fuzz2 = FUZZ * FUZZ;
bool isZeroCenter = false;
pieces = -1;
// In the following, the line segment between between the arc's start and
// end points is referred to as "the chord".
// Transform 1: Shift the origin to the chord's midpoint
double x = (xEnd - xStart) / 2;
double y = (yEnd - yStart) / 2;
double halfChord2 = x * x + y * y; // (half chord length)^2
// Degenerate case: single point
if (halfChord2 < fuzz2)
{
// The chord degeneartes to a point, the arc will be ignored
return null;
}
// Degenerate case: straight line
if (!AcceptRadius(halfChord2, fuzz2, ref xRadius) || !AcceptRadius(halfChord2, fuzz2, ref yRadius))
{
// We have a zero radius, add a straight line segment instead of an arc
pieces = 0;
return null;
}
if (xRadius == 0 || yRadius == 0)
{
// We have a zero radius, add a straight line segment instead of an arc
pieces = 0;
return null;
}
// Transform 2: Rotate to the ellipse's coordinate system
rotationAngle = -rotationAngle * Calc.Deg2Rad;
double cos = Math.Cos(rotationAngle);
double sin = Math.Sin(rotationAngle);
r = x * cos - y * sin;
y = x * sin + y * cos;
x = r;
// Transform 3: Scale so that the ellipse will become a unit circle
x /= xRadius;
y /= yRadius;
// We get to the center of that circle along a verctor perpendicular to the chord
// from the origin, which is the chord's midpoint. By Pythagoras, the length of that
// vector is sqrt(1 - (half chord)^2).
halfChord2 = x * x + y * y; // now in the circle coordinates
if (halfChord2 > 1)
{
// The chord is longer than the circle's diameter; we scale the radii uniformly so
// that the chord will be a diameter. The center will then be the chord's midpoint,
// which is now the origin.
r = Math.Sqrt(halfChord2);
xRadius *= r;
yRadius *= r;
xCenter = yCenter = 0;
isZeroCenter = true;
// Adjust the unit-circle coordinates x and y
x /= r;
y /= r;
}
else
{
// The length of (-y,x) or (x,-y) is sqrt(rHalfChord2), and we want a vector
// of length sqrt(1 - rHalfChord2), so we'll multiply it by:
r = Math.Sqrt((1 - halfChord2) / halfChord2);
//if (isLargeArc != (eSweepDirection == SweepDirection.Clockwise))
if (isLargeArc != isClockwise)
// Going to the center from the origin=chord-midpoint
{
// in the direction of (-y, x)
xCenter = -r * y;
yCenter = r * x;
}
else
{
// in the direction of (y, -x)
xCenter = r * y;
yCenter = -r * x;
}
}
// Transformation 4: shift the origin to the center of the circle, which then becomes
// the unit circle. Since the chord's midpoint is the origin, the start point is (-x, -y)
// and the endpoint is (x, y).
XPoint ptStart = new XPoint(-x - xCenter, -y - yCenter);
XPoint ptEnd = new XPoint(x - xCenter, y - yCenter);
// Set up the matrix that will take us back to our coordinate system. This matrix is
// the inverse of the combination of transformation 1 thru 4.
matToEllipse = new XMatrix(cos * xRadius, -sin * xRadius,
sin * yRadius, cos * yRadius,
(xEnd + xStart) / 2, (yEnd + yStart) / 2);
if (!isZeroCenter)
{
// Prepend the translation that will take the origin to the circle's center
matToEllipse.OffsetX += (matToEllipse.M11 * xCenter + matToEllipse.M21 * yCenter);
matToEllipse.OffsetY += (matToEllipse.M12 * xCenter + matToEllipse.M22 * yCenter);
}
// Get the sine & cosine of the angle that will generate the arc pieces
GetArcAngle(ptStart, ptEnd, isLargeArc, isClockwise, out cosArcAngle, out sinArcAngle, out pieces);
// Get the vector to the first Bezier control point
bezDist = GetBezierDistance(cosArcAngle, 1);
//if (eSweepDirection == SweepDirection.Counterclockwise)
if (!isClockwise)
bezDist = -bezDist;
vecToBez1 = new XVector(-bezDist * ptStart.Y, bezDist * ptStart.X);
PointCollection result = new PointCollection();
// Add the arc pieces, except for the last
for (int idx = 1; idx < pieces; idx++)
{
// Get the arc piece's endpoint
XPoint ptPieceEnd = new XPoint(ptStart.X * cosArcAngle - ptStart.Y * sinArcAngle, ptStart.X * sinArcAngle + ptStart.Y * cosArcAngle);
vecToBez2 = new XVector(-bezDist * ptPieceEnd.Y, bezDist * ptPieceEnd.X);
result.Add(matToEllipse.Transform(ptStart + vecToBez1));
result.Add(matToEllipse.Transform(ptPieceEnd - vecToBez2));
result.Add(matToEllipse.Transform(ptPieceEnd));
// Move on to the next arc
ptStart = ptPieceEnd;
vecToBez1 = vecToBez2;
}
// Last arc - we know the endpoint
vecToBez2 = new XVector(-bezDist * ptEnd.Y, bezDist * ptEnd.X);
result.Add(matToEllipse.Transform(ptStart + vecToBez1));
result.Add(matToEllipse.Transform(ptEnd - vecToBez2));
result.Add(new XPoint(xEnd, yEnd));
return result;
}
/// <summary>
/// Creates between 1 and 5 Béziers curves from parameters specified like in WPF.
/// </summary>
public static List<XPoint> BezierCurveFromArc(XPoint point1, XPoint point2, XSize size,
double rotationAngle, bool isLargeArc, bool clockwise, PathStart pathStart)
{
// See also http://www.charlespetzold.com/blog/blog.xml from January 2, 2008:
// http://www.charlespetzold.com/blog/2008/01/Mathematics-of-ArcSegment.html
double δx = size.Width;
double δy = size.Height;
Debug.Assert(δx * δy > 0);
double factor = δy / δx;
bool isCounterclockwise = !clockwise;
// Adjust for different radii and rotation angle.
XMatrix matrix = new XMatrix();
matrix.RotateAppend(-rotationAngle);
matrix.ScaleAppend(δy / δx, 1);
XPoint pt1 = matrix.Transform(point1);
XPoint pt2 = matrix.Transform(point2);
// Get info about chord that connects both points.
XPoint midPoint = new XPoint((pt1.X + pt2.X) / 2, (pt1.Y + pt2.Y) / 2);
XVector vect = pt2 - pt1;
double halfChord = vect.Length / 2;
// Get vector from chord to center.
XVector vectRotated;
// (comparing two Booleans here!)
if (isLargeArc == isCounterclockwise)
vectRotated = new XVector(-vect.Y, vect.X);
else
vectRotated = new XVector(vect.Y, -vect.X);
vectRotated.Normalize();
// Distance from chord to center.
double centerDistance = Math.Sqrt(δy * δy - halfChord * halfChord);
if (double.IsNaN(centerDistance))
centerDistance = 0;
// Calculate center point.
XPoint center = midPoint + centerDistance * vectRotated;
// Get angles from center to the two points.
double α = Math.Atan2(pt1.Y - center.Y, pt1.X - center.X);
double β = Math.Atan2(pt2.Y - center.Y, pt2.X - center.X);
// (another comparison of two Booleans!)
if (isLargeArc == (Math.Abs(β - α) < Math.PI))
{
if (α < β)
α += 2 * Math.PI;
else
β += 2 * Math.PI;
}
// Invert matrix for final point calculation.
matrix.Invert();
double sweepAngle = β - α;
// Let the algorithm of GDI+ DrawArc to Bézier curves do the rest of the job
return BezierCurveFromArc(center.X - δx * factor, center.Y - δy, 2 * δx * factor, 2 * δy,
α / Calc.Deg2Rad, sweepAngle / Calc.Deg2Rad, pathStart, ref matrix);
}
/// <summary>
/// Appends a Bézier curve for an arc within a full quadrant.
/// </summary>
static void AppendPartialArcQuadrant(List<XPoint> points, double x, double y, double width, double height, double α, double β, PathStart pathStart, XMatrix matrix)
{
Debug.Assert(α >= 0 && α <= 360);
Debug.Assert(β >= 0);
if (β > 360)
β = β - Math.Floor(β / 360) * 360;
Debug.Assert(Math.Abs(α - β) <= 90);
// Scanling factor.
double δx = width / 2;
double δy = height / 2;
// Center of ellipse.
double x0 = x + δx;
double y0 = y + δy;
// We have the following quarters:
// |
// 2 | 3
// ----+-----
// 1 | 0
// |
// If the angles lie in quarter 2 or 3, their values are subtracted by 180 and the
// resulting curve is reflected at the center. This algorithm works as expected (simply tried out).
// There may be a mathematically more elegant solution...
bool reflect = false;
if (α >= 180 && β >= 180)
{
α -= 180;
β -= 180;
reflect = true;
}
double cosα, cosβ, sinα, sinβ;
if (width == height)
{
// Circular arc needs no correction.
α = α * Calc.Deg2Rad;
β = β * Calc.Deg2Rad;
}
else
{
// Elliptic arc needs the angles to be adjusted such that the scaling transformation is compensated.
α = α * Calc.Deg2Rad;
sinα = Math.Sin(α);
if (Math.Abs(sinα) > 1E-10)
α = Math.PI / 2 - Math.Atan(δy * Math.Cos(α) / (δx * sinα));
β = β * Calc.Deg2Rad;
sinβ = Math.Sin(β);
if (Math.Abs(sinβ) > 1E-10)
β = Math.PI / 2 - Math.Atan(δy * Math.Cos(β) / (δx * sinβ));
}
double κ = 4 * (1 - Math.Cos((α - β) / 2)) / (3 * Math.Sin((β - α) / 2));
sinα = Math.Sin(α);
cosα = Math.Cos(α);
sinβ = Math.Sin(β);
cosβ = Math.Cos(β);
//XPoint pt1, pt2, pt3;
if (!reflect)
{
// Calculation for quarter 0 and 1.
switch (pathStart)
{
case PathStart.MoveTo1st:
points.Add(matrix.Transform(new XPoint(x0 + δx * cosα, y0 + δy * sinα)));
break;
case PathStart.LineTo1st:
points.Add(matrix.Transform(new XPoint(x0 + δx * cosα, y0 + δy * sinα)));
break;
case PathStart.Ignore1st:
break;
}
points.Add(matrix.Transform(new XPoint(x0 + δx * (cosα - κ * sinα), y0 + δy * (sinα + κ * cosα))));
points.Add(matrix.Transform(new XPoint(x0 + δx * (cosβ + κ * sinβ), y0 + δy * (sinβ - κ * cosβ))));
points.Add(matrix.Transform(new XPoint(x0 + δx * cosβ, y0 + δy * sinβ)));
}
else
{
// Calculation for quarter 2 and 3.
switch (pathStart)
{
case PathStart.MoveTo1st:
points.Add(matrix.Transform(new XPoint(x0 - δx * cosα, y0 - δy * sinα)));
break;
case PathStart.LineTo1st:
points.Add(matrix.Transform(new XPoint(x0 - δx * cosα, y0 - δy * sinα)));
break;
case PathStart.Ignore1st:
break;
}
points.Add(matrix.Transform(new XPoint(x0 - δx * (cosα - κ * sinα), y0 - δy * (sinα + κ * cosα))));
points.Add(matrix.Transform(new XPoint(x0 - δx * (cosβ + κ * sinβ), y0 - δy * (sinβ - κ * cosβ))));
points.Add(matrix.Transform(new XPoint(x0 - δx * cosβ, y0 - δy * sinβ)));
}
}
/// <summary>
/// Creates between 1 and 5 Béziers curves from parameters specified like in GDI+.
/// </summary>
public static List<XPoint> BezierCurveFromArc(double x, double y, double width, double height, double startAngle, double sweepAngle,
PathStart pathStart, ref XMatrix matrix)
{
List<XPoint> points = new List<XPoint>();
// Normalize the angles.
double α = startAngle;
if (α < 0)
α = α + (1 + Math.Floor((Math.Abs(α) / 360))) * 360;
else if (α > 360)
α = α - Math.Floor(α / 360) * 360;
Debug.Assert(α >= 0 && α <= 360);
double β = sweepAngle;
if (β < -360)
β = -360;
else if (β > 360)
β = 360;
if (α == 0 && β < 0)
α = 360;
else if (α == 360 && β > 0)
α = 0;
// Is it possible that the arc is small starts and ends in same quadrant?
bool smallAngle = Math.Abs(β) <= 90;
β = α + β;
if (β < 0)
β = β + (1 + Math.Floor((Math.Abs(β) / 360))) * 360;
bool clockwise = sweepAngle > 0;
int startQuadrant = Quadrant(α, true, clockwise);
int endQuadrant = Quadrant(β, false, clockwise);
if (startQuadrant == endQuadrant && smallAngle)
AppendPartialArcQuadrant(points, x, y, width, height, α, β, pathStart, matrix);
else
{
int currentQuadrant = startQuadrant;
bool firstLoop = true;
do
{
if (currentQuadrant == startQuadrant && firstLoop)
{
double ξ = currentQuadrant * 90 + (clockwise ? 90 : 0);
AppendPartialArcQuadrant(points, x, y, width, height, α, ξ, pathStart, matrix);
}
else if (currentQuadrant == endQuadrant)
{
double ξ = currentQuadrant * 90 + (clockwise ? 0 : 90);
AppendPartialArcQuadrant(points, x, y, width, height, ξ, β, PathStart.Ignore1st, matrix);
}
else
{
double ξ1 = currentQuadrant * 90 + (clockwise ? 0 : 90);
double ξ2 = currentQuadrant * 90 + (clockwise ? 90 : 0);
AppendPartialArcQuadrant(points, x, y, width, height, ξ1, ξ2, PathStart.Ignore1st, matrix);
}
// Don't stop immediately if arc is greater than 270 degrees.
if (currentQuadrant == endQuadrant && smallAngle)
break;
smallAngle = true;
if (clockwise)
currentQuadrant = currentQuadrant == 3 ? 0 : currentQuadrant + 1;
else
currentQuadrant = currentQuadrant == 0 ? 3 : currentQuadrant - 1;
firstLoop = false;
} while (true);
}
return points;
}
/// <summary>
/// Applies the specified scaling operation to the transformation matrix of this object
/// in the specified order.
/// </summary>
public void ScaleTransform(double scaleXY, XMatrixOrder order)
{
//XMatrix matrix = this.transform;
//matrix.Scale(scaleXY, scaleXY, order);
//Transform = matrix;
XMatrix matrix = new XMatrix(); //XMatrix.Identity;
matrix.ScalePrepend(scaleXY, scaleXY);
AddTransform(matrix, order);
}
/// <summary>
/// Applies the specified rotation operation to the transformation matrix of this object by
/// prepending it to the object's transformation matrix.
/// </summary>
public void RotateTransform(double angle)
{
//RotateTransform(angle, XMatrixOrder.Prepend);
XMatrix matrix = new XMatrix(); //XMatrix.Identity;
matrix.RotatePrepend(angle);
AddTransform(matrix, XMatrixOrder.Prepend);
}
/// <summary>
/// Multiplies a point with a matrix.
/// </summary>
public static XPoint Multiply(XPoint point, XMatrix matrix)
{
return matrix.Transform(point);
}
/// <summary>
/// Applies the specified rotation operation to the transformation matrix of this object by
/// prepending it to the object's transformation matrix.
/// </summary>
public void RotateAtTransform(double angle, XPoint point)
{
//RotateAtTransform(angle, point, XMatrixOrder.Prepend);
XMatrix matrix = new XMatrix(); //XMatrix.Identity;
matrix.RotateAtPrepend(angle, point);
AddTransform(matrix, XMatrixOrder.Prepend);
}
public static void RenderTile(RenderContext ctx)
{
DateTime dtStart = DateTime.Now;
List<Timer> timers = new List<Timer>();
if (ctx.resourceManager == null)
throw new ArgumentNullException("resourceManager");
if (ctx.graphics == null)
throw new ArgumentNullException("graphics");
if (ctx.selector == null)
throw new ArgumentNullException("selector");
XSolidBrush solidBrush = new XSolidBrush();
XPen pen = new XPen(XColor.Empty);
using (var fonts = new FontCache(ctx.styles))
{
#region resources
lock (s_imageInitLock)
{
if (ctx.styles.useBackgroundImage && s_backgroundImage == null)
s_backgroundImage = XImage.FromFile(ctx.resourceManager.Server.MapPath(@"~/res/Candy/Nebula.png"));
if (ctx.styles.showRifts && s_riftImage == null)
s_riftImage = new ImageHolder(Image.FromFile(ctx.resourceManager.Server.MapPath(@"~/res/Candy/Rifts.png")));
if (ctx.styles.useGalaxyImage && s_galaxyImage == null) {
s_galaxyImage = new ImageHolder(Image.FromFile(ctx.resourceManager.Server.MapPath(@"~/res/Candy/Galaxy.png")));
s_galaxyImageGray = new ImageHolder(Image.FromFile(ctx.resourceManager.Server.MapPath(@"~/res/Candy/Galaxy_Gray.png")));
}
if (ctx.styles.useWorldImages && s_worldImages == null)
{
s_worldImages = new Dictionary<string, XImage> {
{ "Hyd0", XImage.FromFile(ctx.resourceManager.Server.MapPath(@"~/res/Candy/Hyd0.png")) },
{ "Hyd1", XImage.FromFile(ctx.resourceManager.Server.MapPath(@"~/res/Candy/Hyd1.png")) },
{ "Hyd2", XImage.FromFile(ctx.resourceManager.Server.MapPath(@"~/res/Candy/Hyd2.png")) },
{ "Hyd3", XImage.FromFile(ctx.resourceManager.Server.MapPath(@"~/res/Candy/Hyd3.png")) },
{ "Hyd4", XImage.FromFile(ctx.resourceManager.Server.MapPath(@"~/res/Candy/Hyd4.png")) },
{ "Hyd5", XImage.FromFile(ctx.resourceManager.Server.MapPath(@"~/res/Candy/Hyd5.png")) },
{ "Hyd6", XImage.FromFile(ctx.resourceManager.Server.MapPath(@"~/res/Candy/Hyd6.png")) },
{ "Hyd7", XImage.FromFile(ctx.resourceManager.Server.MapPath(@"~/res/Candy/Hyd7.png")) },
{ "Hyd8", XImage.FromFile(ctx.resourceManager.Server.MapPath(@"~/res/Candy/Hyd8.png")) },
{ "Hyd9", XImage.FromFile(ctx.resourceManager.Server.MapPath(@"~/res/Candy/Hyd9.png")) },
{ "HydA", XImage.FromFile(ctx.resourceManager.Server.MapPath(@"~/res/Candy/HydA.png")) },
{ "Belt", XImage.FromFile(ctx.resourceManager.Server.MapPath(@"~/res/Candy/Belt.png")) }
};
}
if (ctx.silly && s_sillyImageColor == null)
{
// Happy face c/o http://bighappyfaces.com/
s_sillyImageColor = XImage.FromFile(ctx.resourceManager.Server.MapPath(@"~/res/AprilFools/Starburst.png"));
s_sillyImageGray = XImage.FromFile(ctx.resourceManager.Server.MapPath(@"~/res/AprilFools/Starburst_Gray.png"));
}
}
#endregion
timers.Add(new Timer("preload"));
//////////////////////////////////////////////////////////////
//
// Image-Space Rendering
//
//////////////////////////////////////////////////////////////
using (Maps.Rendering.RenderUtil.SaveState(ctx.graphics))
{
if (ctx.clipPath != null)
{
XMatrix m = ctx.ImageSpaceToWorldSpace;
ctx.graphics.MultiplyTransform(m);
ctx.graphics.IntersectClip(ctx.clipPath);
m.Invert();
ctx.graphics.MultiplyTransform(m);
}
// Fill
ctx.graphics.SmoothingMode = XSmoothingMode.HighSpeed;
solidBrush.Color = ctx.styles.backgroundColor;
ctx.graphics.DrawRectangle(solidBrush, 0, 0, ctx.tileSize.Width, ctx.tileSize.Height);
//// Draw tile #
//using( var font = new Font( FontFamily.GenericSansSerif, 10 ) )
//{
// graphics.DrawString( String.Format( "({0},{1})", x, y ), font, foregroundBrush, 0, 0 );
// graphics.DrawString( String.Format( "{0},{1}-{2}x{3}", tileRect.X, tileRect.Y, tileRect.Width, tileRect.Height ), font, foregroundBrush, 0, 20 );
//}
// Frame it
//graphics.DrawRectangle( Pens.Green, 0, 0, tileSize.Width-1, tileSize.Height-1 );
}
timers.Add(new Timer("imagespace"));
//////////////////////////////////////////////////////////////
//
// World-Space Rendering
//
//////////////////////////////////////////////////////////////
// Transform from image-space to world-space. Set up a reverse transform as well.
XMatrix imageSpaceToWorldSpace = ctx.ImageSpaceToWorldSpace;
XMatrix worldSpaceToImageSpace = imageSpaceToWorldSpace;
worldSpaceToImageSpace.Invert();
ctx.graphics.MultiplyTransform(imageSpaceToWorldSpace);
using (Maps.Rendering.RenderUtil.SaveState(ctx.graphics))
{
//------------------------------------------------------------
// Explicit Clipping
//------------------------------------------------------------
if (ctx.clipPath != null)
ctx.graphics.IntersectClip(ctx.clipPath);
//ctx.styles.showPseudoRandomStars = true;
//------------------------------------------------------------
// Backgrounds
//------------------------------------------------------------
RectangleF galacticBounds = new RectangleF(-14598.67f, -23084.26f, 29234.1133f, 25662.4746f); // TODO: Don't hardcode
Rectangle galaxyImageRect = new Rectangle(-18257, -26234, 36551, 32462); // Chosen to match T5 pp.416
// This transforms the Linehan galactic structure to the Mikesh galactic structure
// See http://travellermap.blogspot.com/2009/03/galaxy-scale-mismatch.html
Matrix xformLinehanToMikesh = new Matrix(0.9181034f, 0.0f, 0.0f, 0.855192542f, 120.672432f, 86.34569f);
timers.Add(new Timer("prep"));
//------------------------------------------------------------
// Local background (Nebula)
//------------------------------------------------------------
#region nebula-background
// NOTE: Since alpha texture brushes aren't supported without
// creating a new image (slow!) we render the local background
// first, then overlay the deep background over it, for
// basically the same effect since the alphas sum to 1.
if (ctx.styles.useBackgroundImage && galacticBounds.IntersectsWith(ctx.tileRect))
{
// Image-space rendering, so save current context
using (RenderUtil.SaveState(ctx.graphics))
{
// Never fill outside the galaxy
ctx.graphics.IntersectClip(galacticBounds);
// Map back to image space so it scales/tiles nicely
ctx.graphics.MultiplyTransform(worldSpaceToImageSpace);
const float backgroundImageScale = 2.0f;
lock (s_backgroundImage)
{
// Scaled size of the background
double w = s_backgroundImage.PixelWidth * backgroundImageScale;
double h = s_backgroundImage.PixelHeight * backgroundImageScale;
// Offset of the background, relative to the canvas
double ox = (float)(-ctx.tileRect.Left * ctx.scale * Astrometrics.ParsecScaleX) % w;
double oy = (float)(-ctx.tileRect.Top * ctx.scale * Astrometrics.ParsecScaleY) % h;
if (ox > 0) ox -= w;
if (oy > 0) oy -= h;
// Number of copies needed to cover the canvas
int nx = 1 + (int)Math.Floor(ctx.tileSize.Width / w);
int ny = 1 + (int)Math.Floor(ctx.tileSize.Height / h);
if (ox + nx * w < ctx.tileSize.Width) nx += 1;
if (oy + ny * h < ctx.tileSize.Height) ny += 1;
for (int x = 0; x < nx; ++x)
{
for (int y = 0; y < ny; ++y)
{
ctx.graphics.DrawImage(s_backgroundImage, ox + x * w, oy + y * h, w + 1, h + 1);
//ctx.graphics.DrawRectangle( XPens.Orange, ox + x * w, oy + y * h, w, h );
}
}
}
}
}
#endregion
timers.Add(new Timer("background (nebula)"));
//------------------------------------------------------------
// Deep background (Galaxy)
//------------------------------------------------------------
#region galaxy-background
if (ctx.styles.useGalaxyImage && ctx.styles.deepBackgroundOpacity > 0f)
{
using (RenderUtil.SaveState(ctx.graphics))
{
ctx.graphics.MultiplyTransform(xformLinehanToMikesh);
ImageHolder galaxyImage = ctx.styles.lightBackground ? s_galaxyImageGray : s_galaxyImage;
lock (galaxyImage)
{
RenderUtil.DrawImageAlpha(ctx.graphics, ctx.styles.deepBackgroundOpacity, galaxyImage, galaxyImageRect);
}
}
}
#endregion
timers.Add(new Timer("background (galaxy)"));
//------------------------------------------------------------
// Pseudo-Random Stars
//------------------------------------------------------------
#region pseudorandom-stars
if (ctx.styles.pseudoRandomStars.visible)
{
// Render pseudorandom stars based on the tile # and
// scale factor. Note that these are positioned in
// screen space, not world space.
//const int nStars = 75;
int nMinStars = ctx.tileSize.Width * ctx.tileSize.Height / 300;
int nStars = ctx.scale >= 1 ? nMinStars : (int)(nMinStars / ctx.scale);
// NOTE: For performance's sake, three different cases are considered:
// (1) Tile is entirely within charted space (most common) - just render
// the pseudorandom stars into the tile
// (2) Tile intersects the galaxy bounds - render pseudorandom stars
// into a texture, then fill the galaxy vector with it
// (3) Tile is entire outside the galaxy - don't render stars
using (RenderUtil.SaveState(ctx.graphics))
{
ctx.graphics.SmoothingMode = XSmoothingMode.HighQuality;
solidBrush.Color = ctx.styles.pseudoRandomStars.fillColor;
Random rand = new Random((((int)ctx.tileRect.Left) << 8) ^ (int)ctx.tileRect.Top);
for (int i = 0; i < nStars; i++)
{
float starX = (float)rand.NextDouble() * ctx.tileRect.Width + ctx.tileRect.X;
float starY = (float)rand.NextDouble() * ctx.tileRect.Height + ctx.tileRect.Y;
float d = (float)rand.NextDouble() * 2;
//ctx.graphics.DrawRectangle( fonts.foregroundBrush, starX, starY, (float)( d / ctx.scale * Astrometrics.ParsecScaleX ), (float)( d / ctx.scale * Astrometrics.ParsecScaleY ) );
ctx.graphics.DrawEllipse(solidBrush, starX, starY, (float)(d / ctx.scale * Astrometrics.ParsecScaleX), (float)(d / ctx.scale * Astrometrics.ParsecScaleY));
}
}
}
#endregion
timers.Add(new Timer("pseudorandom"));
//------------------------------------------------------------
// Rifts in Charted Space
//------------------------------------------------------------
#region rifts
if (ctx.styles.showRifts && ctx.styles.riftOpacity > 0f)
{
Rectangle riftImageRect;
riftImageRect = new Rectangle(-1374, -827, 2769, 1754); // Correct
lock (s_riftImage)
{
RenderUtil.DrawImageAlpha(ctx.graphics, ctx.styles.riftOpacity, s_riftImage, riftImageRect);
}
}
#endregion
timers.Add(new Timer("rifts"));
//------------------------------------------------------------
// April Fool's Day
//------------------------------------------------------------
#region april-fools
if (ctx.silly)
{
using (RenderUtil.SaveState(ctx.graphics))
{
// Render in image-space
ctx.graphics.MultiplyTransform(worldSpaceToImageSpace);
XImage sillyImage = ctx.styles.grayscale ? s_sillyImageGray : s_sillyImageColor;
lock (sillyImage)
{
ctx.graphics.DrawImage(sillyImage, 0, 0, ctx.tileSize.Width, ctx.tileSize.Height);
}
}
timers.Add(new Timer("silly"));
}
#endregion
//------------------------------------------------------------
// Macro: Borders object
//------------------------------------------------------------
#region macro-borders
if (ctx.styles.macroBorders.visible)
{
ctx.styles.macroBorders.pen.Apply(ref pen);
ctx.graphics.SmoothingMode = XSmoothingMode.AntiAlias;
foreach (var vec in borderFiles
.Select(file => ctx.resourceManager.GetXmlFileObject(file, typeof(VectorObject)))
.OfType<VectorObject>()
.Where(vec => (vec.MapOptions & ctx.options & MapOptions.BordersMask) != 0))
{
vec.Draw(ctx.graphics, ctx.tileRect, ctx.options, pen);
}
}
#endregion
timers.Add(new Timer("macro-borders"));
//------------------------------------------------------------
// Macro: Route object
//------------------------------------------------------------
#region macro-routes
if (ctx.styles.macroRoutes.visible)
{
ctx.styles.macroRoutes.pen.Apply(ref pen);
ctx.graphics.SmoothingMode = XSmoothingMode.AntiAlias;
foreach (var vec in routeFiles
.Select(file => ctx.resourceManager.GetXmlFileObject(file, typeof(VectorObject)))
.OfType<VectorObject>()
.Where(vec => (vec.MapOptions & ctx.options & MapOptions.BordersMask) != 0))
{
vec.Draw(ctx.graphics, ctx.tileRect, ctx.options, pen);
}
}
#endregion
timers.Add(new Timer("macro-routes"));
//------------------------------------------------------------
// Sector Grid
//------------------------------------------------------------
#region sector-grid
ctx.graphics.SmoothingMode = XSmoothingMode.HighSpeed;
if (ctx.styles.sectorGrid.visible)
{
const int gridSlop = 10;
ctx.styles.sectorGrid.pen.Apply(ref pen);
for (float h = ((float)(Math.Floor((ctx.tileRect.Left) / Astrometrics.SectorWidth) - 1) - Astrometrics.ReferenceSector.X) * Astrometrics.SectorWidth - Astrometrics.ReferenceHex.X; h <= ctx.tileRect.Right + Astrometrics.SectorWidth; h += Astrometrics.SectorWidth)
ctx.graphics.DrawLine(pen, h, ctx.tileRect.Top - gridSlop, h, ctx.tileRect.Bottom + gridSlop);
for (float v = ((float)(Math.Floor((ctx.tileRect.Top) / Astrometrics.SectorHeight) - 1) - Astrometrics.ReferenceSector.Y) * Astrometrics.SectorHeight - Astrometrics.ReferenceHex.Y; v <= ctx.tileRect.Bottom + Astrometrics.SectorHeight; v += Astrometrics.SectorHeight)
ctx.graphics.DrawLine(pen, ctx.tileRect.Left - gridSlop, v, ctx.tileRect.Right + gridSlop, v);
}
#endregion
timers.Add(new Timer("sector grid"));
//------------------------------------------------------------
// Subsector Grid
//------------------------------------------------------------
#region subsector-grid
ctx.graphics.SmoothingMode = XSmoothingMode.HighSpeed;
if (ctx.styles.subsectorGrid.visible)
{
const int gridSlop = 10;
ctx.styles.subsectorGrid.pen.Apply(ref pen);
int hmin = (int)Math.Floor(ctx.tileRect.Left / Astrometrics.SubsectorWidth) - 1 - Astrometrics.ReferenceSector.X,
hmax = (int)Math.Ceiling((ctx.tileRect.Right + Astrometrics.SubsectorWidth + Astrometrics.ReferenceHex.X) / Astrometrics.SubsectorWidth);
for (int hi = hmin; hi <= hmax; ++hi)
{
if (hi % 4 == 0) continue;
float h = hi * Astrometrics.SubsectorWidth - Astrometrics.ReferenceHex.X;
ctx.graphics.DrawLine(pen, h, ctx.tileRect.Top - gridSlop, h, ctx.tileRect.Bottom + gridSlop);
}
int vmin = (int)Math.Floor(ctx.tileRect.Top / Astrometrics.SubsectorHeight) - 1 - Astrometrics.ReferenceSector.Y,
vmax = (int)Math.Ceiling((ctx.tileRect.Bottom + Astrometrics.SubsectorHeight + Astrometrics.ReferenceHex.Y) / Astrometrics.SubsectorHeight);
for (int vi = vmin; vi <= vmax; ++vi)
{
if (vi % 4 == 0) continue;
float v = vi * Astrometrics.SubsectorHeight - Astrometrics.ReferenceHex.Y;
ctx.graphics.DrawLine(pen, ctx.tileRect.Left - gridSlop, v, ctx.tileRect.Right + gridSlop, v);
}
}
#endregion
timers.Add(new Timer("subsector grid"));
//------------------------------------------------------------
// Parsec Grid
//------------------------------------------------------------
#region parsec-grid
// TODO: Optimize - timers indicate this is slow
ctx.graphics.SmoothingMode = XSmoothingMode.HighQuality;
if (ctx.styles.parsecGrid.visible)
{
const int parsecSlop = 1;
int hx = (int)Math.Floor(ctx.tileRect.Left);
int hw = (int)Math.Ceiling(ctx.tileRect.Width);
int hy = (int)Math.Floor(ctx.tileRect.Top);
int hh = (int)Math.Ceiling(ctx.tileRect.Height);
ctx.styles.parsecGrid.pen.Apply(ref pen);
switch (ctx.styles.hexStyle)
{
case HexStyle.Square:
for (int px = hx - parsecSlop; px < hx + hw + parsecSlop; px++)
{
float yOffset = ((px % 2) != 0) ? 0.0f : 0.5f;
for (int py = hy - parsecSlop; py < hy + hh + parsecSlop; py++)
{
// TODO: use RenderUtil.(Square|Hex)Edges(X|Y) arrays
const float inset = 0.1f;
ctx.graphics.DrawRectangle(pen, px + inset, py + inset + yOffset, 1 - inset * 2, 1 - inset * 2);
}
}
break;
case HexStyle.Hex:
XPoint[] points = new XPoint[4];
for (int px = hx - parsecSlop; px < hx + hw + parsecSlop; px++)
{
double yOffset = ((px % 2) != 0) ? 0.0 : 0.5;
for (int py = hy - parsecSlop; py < hy + hh + parsecSlop; py++)
{
points[0] = new XPoint(px + -RenderUtil.HEX_EDGE, py + 0.5 + yOffset);
points[1] = new XPoint(px + RenderUtil.HEX_EDGE, py + 1.0 + yOffset);
points[2] = new XPoint(px + 1.0 - RenderUtil.HEX_EDGE, py + 1.0 + yOffset);
points[3] = new XPoint(px + 1.0 + RenderUtil.HEX_EDGE, py + 0.5 + yOffset);
ctx.graphics.DrawLines(pen, points);
}
}
break;
case HexStyle.None:
// none
break;
}
if (ctx.styles.numberAllHexes &&
ctx.styles.worldDetails.HasFlag(WorldDetails.Hex))
{
solidBrush.Color = ctx.styles.hexNumber.textColor;
for (int px = hx - parsecSlop; px < hx + hw + parsecSlop; px++)
{
double yOffset = ((px % 2) != 0) ? 0.0 : 0.5;
for (int py = hy - parsecSlop; py < hy + hh + parsecSlop; py++)
{
Location loc = Astrometrics.CoordinatesToLocation(px + 1, py + 1);
string hex;
switch (ctx.styles.hexCoordinateStyle)
{
default:
case Stylesheet.HexCoordinateStyle.Sector: hex = loc.HexString; break;
case Stylesheet.HexCoordinateStyle.Subsector: hex = loc.SubsectorHexString; break;
}
using (RenderUtil.SaveState(ctx.graphics))
{
XMatrix matrix = new XMatrix();
matrix.TranslatePrepend(px + 0.5f, py + yOffset);
matrix.ScalePrepend(ctx.styles.hexContentScale / Astrometrics.ParsecScaleX, ctx.styles.hexContentScale / Astrometrics.ParsecScaleY);
ctx.graphics.MultiplyTransform(matrix, XMatrixOrder.Prepend);
ctx.graphics.DrawString(hex, ctx.styles.hexNumber.Font, solidBrush, 0, 0, RenderUtil.StringFormatTopCenter);
}
}
}
}
}
#endregion
timers.Add(new Timer("parsec grid"));
//------------------------------------------------------------
// Subsector Names
//------------------------------------------------------------
#region subsector-names
if (ctx.styles.subsectorNames.visible)
{
solidBrush.Color = ctx.styles.subsectorNames.textColor;
foreach (Sector sector in ctx.selector.Sectors)
{
for (int i = 0; i < 16; i++)
{
int ssx = i % 4;
int ssy = i / 4;
Subsector ss = sector[i];
if (ss == null || String.IsNullOrEmpty(ss.Name))
continue;
Point center = sector.SubsectorCenter(i);
RenderUtil.DrawLabel(ctx.graphics, ss.Name, center, ctx.styles.subsectorNames.Font, solidBrush, ctx.styles.subsectorNames.textStyle);
}
}
}
#endregion
timers.Add(new Timer("subsector names"));
//------------------------------------------------------------
// Micro: Borders
//------------------------------------------------------------
#region micro-borders
if (ctx.styles.microBorders.visible)
{
if (ctx.styles.fillMicroBorders)
DrawMicroBorders(ctx, BorderLayer.Fill);
DrawMicroBorders(ctx, BorderLayer.Stroke);
}
#endregion
timers.Add(new Timer("micro-borders"));
//------------------------------------------------------------
// Micro: Routes
//------------------------------------------------------------
#region micro-routes
if (ctx.styles.microRoutes.visible)
DrawRoutes(ctx, fonts);
#endregion
timers.Add(new Timer("micro-routes"));
//------------------------------------------------------------
// Sector Names
//------------------------------------------------------------
#region sector-names
if (ctx.styles.showSomeSectorNames || ctx.styles.showAllSectorNames)
{
foreach (Sector sector in ctx.selector.Sectors
.Where(sector => ctx.styles.showAllSectorNames || (ctx.styles.showSomeSectorNames && sector.Selected))
.Where(sector => sector.Names.Any() || sector.Label != null))
{
solidBrush.Color = ctx.styles.sectorName.textColor;
string name = sector.Label ?? sector.Names[0].Text;
RenderUtil.DrawLabel(ctx.graphics, name, sector.Center, ctx.styles.sectorName.Font, solidBrush, ctx.styles.sectorName.textStyle);
}
}
#endregion
timers.Add(new Timer("sector names"));
//------------------------------------------------------------
// Mega: Galaxy-Scale Labels
//------------------------------------------------------------
#region mega-names
if (ctx.styles.megaNames.visible)
{
solidBrush.Color = ctx.styles.megaNames.textColor;
foreach (var label in megaLabels)
{
using (RenderUtil.SaveState(ctx.graphics))
{
XMatrix matrix = new XMatrix();
matrix.ScalePrepend(1.0f / Astrometrics.ParsecScaleX, 1.0f / Astrometrics.ParsecScaleY);
matrix.TranslatePrepend(label.position.X, label.position.Y);
ctx.graphics.MultiplyTransform(matrix, XMatrixOrder.Prepend);
XFont font = label.minor ? ctx.styles.megaNames.SmallFont : ctx.styles.megaNames.Font;
XSize size = ctx.graphics.MeasureString(label.text, font);
ctx.graphics.TranslateTransform(-size.Width / 2, -size.Height / 2); // Center the text
RectangleF textBounds = new RectangleF(0, 0, (float)size.Width * 1.01f, (float)size.Height * 2); // *2 or it gets cut off at high sizes
XTextFormatter formatter = new XTextFormatter(ctx.graphics);
formatter.Alignment = XParagraphAlignment.Center;
formatter.DrawString(label.text, font, solidBrush, textBounds);
}
}
}
#endregion
timers.Add(new Timer("mega names"));
//------------------------------------------------------------
// Macro: Government / Rift / Route Names
//------------------------------------------------------------
#region government-rift-names
if (ctx.styles.macroNames.visible)
{
foreach (var vec in borderFiles
.Select(file => ctx.resourceManager.GetXmlFileObject(file, typeof(VectorObject)))
.OfType<VectorObject>()
.Where(vec => (vec.MapOptions & ctx.options & MapOptions.NamesMask) != 0))
{
bool major = vec.MapOptions.HasFlag(MapOptions.NamesMajor);
LabelStyle labelStyle = new LabelStyle();
labelStyle.Uppercase = major;
XFont font = major ? ctx.styles.macroNames.Font : ctx.styles.macroNames.SmallFont;
solidBrush.Color = major ? ctx.styles.macroNames.textColor : ctx.styles.macroNames.textHighlightColor;
vec.DrawName(ctx.graphics, ctx.tileRect, ctx.options, font, solidBrush, labelStyle);
}
foreach (var vec in riftFiles
.Select(file => ctx.resourceManager.GetXmlFileObject(file, typeof(VectorObject)))
.OfType<VectorObject>()
.Where(vec => (vec.MapOptions & ctx.options & MapOptions.NamesMask) != 0))
{
bool major = vec.MapOptions.HasFlag(MapOptions.NamesMajor);
LabelStyle labelStyle = new LabelStyle();
labelStyle.Rotation = 35;
labelStyle.Uppercase = major;
XFont font = major ? ctx.styles.macroNames.Font : ctx.styles.macroNames.SmallFont;
solidBrush.Color = major ? ctx.styles.macroNames.textColor : ctx.styles.macroNames.textHighlightColor;
vec.DrawName(ctx.graphics, ctx.tileRect, ctx.options, font, solidBrush, labelStyle);
}
if (ctx.styles.macroRoutes.visible)
{
foreach (var vec in routeFiles
.Select(file => ctx.resourceManager.GetXmlFileObject(file, typeof(VectorObject)))
.OfType<VectorObject>()
.Where(vec => (vec.MapOptions & ctx.options & MapOptions.NamesMask) != 0))
{
bool major = vec.MapOptions.HasFlag(MapOptions.NamesMajor);
LabelStyle labelStyle = new LabelStyle();
labelStyle.Uppercase = major;
XFont font = major ? ctx.styles.macroNames.Font : ctx.styles.macroNames.SmallFont;
solidBrush.Color = major ? ctx.styles.macroRoutes.textColor : ctx.styles.macroRoutes.textHighlightColor;
vec.DrawName(ctx.graphics, ctx.tileRect, ctx.options, font, solidBrush, labelStyle);
}
}
if (ctx.options.HasFlag(MapOptions.NamesMinor))
{
XFont font = ctx.styles.macroNames.MediumFont;
solidBrush.Color = ctx.styles.macroRoutes.textHighlightColor;
foreach (var label in labels)
{
using (RenderUtil.SaveState(ctx.graphics))
{
XMatrix matrix = new XMatrix();
matrix.ScalePrepend(1.0f / Astrometrics.ParsecScaleX, 1.0f / Astrometrics.ParsecScaleY);
matrix.TranslatePrepend(label.position.X, label.position.Y);
ctx.graphics.MultiplyTransform(matrix, XMatrixOrder.Prepend);
XSize size = ctx.graphics.MeasureString(label.text, font);
ctx.graphics.TranslateTransform(-size.Width / 2, -size.Height / 2); // Center the text
RectangleF textBounds = new RectangleF(0, 0, (float)size.Width, (float)size.Height * 2); // *2 or it gets cut off at high sizes
XTextFormatter formatter = new XTextFormatter(ctx.graphics);
formatter.Alignment = XParagraphAlignment.Center;
formatter.DrawString(label.text, font, solidBrush, textBounds);
}
}
}
}
#endregion
timers.Add(new Timer("macro names"));
//------------------------------------------------------------
// Macro: Capitals & Home Worlds
//------------------------------------------------------------
#region capitals-homeworlds
if (ctx.styles.capitals.visible && (ctx.options & MapOptions.WorldsMask) != 0)
{
WorldObjectCollection worlds = ctx.resourceManager.GetXmlFileObject(@"~/res/Worlds.xml", typeof(WorldObjectCollection)) as WorldObjectCollection;
if (worlds != null)
{
solidBrush.Color = ctx.styles.capitals.textColor;
foreach (WorldObject world in worlds.Worlds.Where(world => (world.MapOptions & ctx.options) != 0))
{
world.Paint(ctx.graphics, ctx.tileRect, ctx.options, ctx.styles.capitals.fillColor,
solidBrush, ctx.styles.macroNames.SmallFont);
}
}
}
#endregion
timers.Add(new Timer("macro worlds"));
//------------------------------------------------------------
// Micro: Border Labels & Explicit Labels
//------------------------------------------------------------
#region micro-border-labels
if (ctx.styles.showMicroNames)
DrawLabels(ctx, fonts);
#endregion
timers.Add(new Timer("micro-border labels"));
}
// End of clipping, so world names are not clipped in jumpmaps.
//------------------------------------------------------------
// Worlds
//------------------------------------------------------------
#region worlds
if (ctx.styles.worlds.visible)
{
// TODO: selector may be expensive
foreach (World world in ctx.selector.Worlds) { DrawWorld(ctx, fonts, world, WorldLayer.Background); }
foreach (World world in ctx.selector.Worlds) { DrawWorld(ctx, fonts, world, WorldLayer.Foreground); }
}
#endregion
timers.Add(new Timer("worlds"));
//------------------------------------------------------------
// Unofficial
//------------------------------------------------------------
#region unofficial
if (ctx.styles.dimUnofficialSectors && ctx.styles.worlds.visible)
{
solidBrush.Color = Color.FromArgb(128, ctx.styles.backgroundColor);
foreach (Sector sector in ctx.selector.Sectors
.Where(sector => !sector.Tags.Contains("Official") && !sector.Tags.Contains("Preserve") && !sector.Tags.Contains("InReview")))
ctx.graphics.DrawRectangle(solidBrush, sector.Bounds);
}
#endregion
#if SHOW_TIMING
using( RenderUtil.SaveState( ctx.graphics ) )
{
XFont font = new XFont( FontFamily.GenericSansSerif, 12, XFontStyle.Regular, new XPdfFontOptions(PdfSharp.Pdf.PdfFontEncoding.Unicode) );
ctx.graphics.MultiplyTransform( worldSpaceToImageSpace );
double cursorX = 20.0, cursorY = 20.0;
DateTime last = dtStart;
foreach( Timer s in timers )
{
TimeSpan ts = s.dt - last;
last = s.dt;
for( int dx = -1; dx <= 1; ++dx )
{
for( int dy = -1; dy <= 1; ++dy )
{
ctx.graphics.DrawString( String.Format( "{0} {1}", Math.Round( ts.TotalMilliseconds ), s.label ), font, XBrushes.Black, cursorX + dx, cursorY + dy );
}
}
ctx.graphics.DrawString( String.Format("{0} {1}", Math.Round(ts.TotalMilliseconds), s.label), font, XBrushes.Yellow, cursorX, cursorY );
cursorY += 14;
}
}
#endif
}
}
/// <summary>
/// Applies the specified shearing operation to the transformation matrix of this object
/// in the specified order.
/// </summary>
public void ShearTransform(double shearX, double shearY, XMatrixOrder order)
{
XMatrix matrix = new XMatrix(); //XMatrix.Identity;
matrix.ShearPrepend(shearX, shearY);
AddTransform(matrix, order);
}
private static void DrawWorld(RenderContext ctx, FontCache styleRes, World world, WorldLayer layer)
{
bool isPlaceholder = world.IsPlaceholder;
bool isCapital = world.IsCapital;
bool isHiPop = world.IsHi;
bool renderName = ctx.styles.worldDetails.HasFlag(WorldDetails.AllNames) ||
(ctx.styles.worldDetails.HasFlag(WorldDetails.KeyNames) && (isCapital || isHiPop));
bool renderUWP = ctx.styles.worldDetails.HasFlag(WorldDetails.Uwp);
using (RenderUtil.SaveState(ctx.graphics))
{
XPen pen = new XPen(XColor.Empty);
XSolidBrush solidBrush = new XSolidBrush();
ctx.graphics.SmoothingMode = XSmoothingMode.AntiAlias;
// Center on the parsec
PointF center = Astrometrics.HexToCenter(world.Coordinates);
XMatrix matrix = new XMatrix();
matrix.TranslatePrepend(center.X, center.Y);
matrix.ScalePrepend(ctx.styles.hexContentScale / Astrometrics.ParsecScaleX, ctx.styles.hexContentScale / Astrometrics.ParsecScaleY);
ctx.graphics.MultiplyTransform(matrix, XMatrixOrder.Prepend);
if (!ctx.styles.useWorldImages)
{
if (layer == WorldLayer.Background)
{
#region Zone
if (ctx.styles.worldDetails.HasFlag(WorldDetails.Zone))
{
Stylesheet.StyleElement? maybeElem = ZoneStyle(ctx, world);
if (maybeElem.HasValue)
{
Stylesheet.StyleElement elem = maybeElem.Value;
if (!elem.fillColor.IsEmpty)
{
solidBrush.Color = elem.fillColor;
ctx.graphics.DrawEllipse(solidBrush, -0.4f, -0.4f, 0.8f, 0.8f);
}
PenInfo pi = elem.pen;
if (!pi.color.IsEmpty)
{
pi.Apply(ref pen);
if (renderName && ctx.styles.fillMicroBorders)
{
using (RenderUtil.SaveState(ctx.graphics))
{
ctx.graphics.IntersectClip(new RectangleF(-.5f, -.5f, 1f, renderUWP ? 0.65f : 0.75f));
ctx.graphics.DrawEllipse(pen, -0.4f, -0.4f, 0.8f, 0.8f);
}
}
else
{
ctx.graphics.DrawEllipse(pen, -0.4f, -0.4f, 0.8f, 0.8f);
}
}
}
}
#endregion
#region Hex
if (!ctx.styles.numberAllHexes &&
ctx.styles.worldDetails.HasFlag(WorldDetails.Hex))
{
string hex;
switch (ctx.styles.hexCoordinateStyle)
{
default:
case Stylesheet.HexCoordinateStyle.Sector: hex = world.Hex; break;
case Stylesheet.HexCoordinateStyle.Subsector: hex = world.SubsectorHex; break;
}
solidBrush.Color = ctx.styles.hexNumber.textColor;
ctx.graphics.DrawString(hex, ctx.styles.hexNumber.Font, solidBrush, 0.0f, -0.5f, RenderUtil.StringFormatTopCenter);
}
#endregion
}
if (layer == WorldLayer.Foreground)
{
Stylesheet.StyleElement? elem = ZoneStyle(ctx, world);
TextBackgroundStyle worldTextBackgroundStyle = (elem.HasValue && !elem.Value.fillColor.IsEmpty)
? TextBackgroundStyle.None : ctx.styles.worlds.textBackgroundStyle;
#region Name
if (renderName)
{
string name = world.Name;
if ((isHiPop && ctx.styles.worldDetails.HasFlag(WorldDetails.Highlight)) || ctx.styles.worlds.textStyle.Uppercase)
name = name.ToUpperInvariant();
Color textColor = (isCapital && ctx.styles.worldDetails.HasFlag(WorldDetails.Highlight))
? ctx.styles.worlds.textHighlightColor : ctx.styles.worlds.textColor;
XFont font = ((isHiPop || isCapital) && ctx.styles.worldDetails.HasFlag(WorldDetails.Highlight))
? ctx.styles.worlds.LargeFont : ctx.styles.worlds.Font;
DrawWorldLabel(ctx, worldTextBackgroundStyle, solidBrush, textColor, ctx.styles.worlds.textStyle.Translation, font, name);
}
#endregion
#region Allegiance
// TODO: Mask off background for allegiance
if (ctx.styles.worldDetails.HasFlag(WorldDetails.Allegiance))
{
string alleg = world.Allegiance;
if (!SecondSurvey.IsDefaultAllegiance(alleg))
{
if (!ctx.styles.t5AllegianceCodes && alleg.Length > 2)
alleg = SecondSurvey.T5AllegianceCodeToLegacyCode(alleg);
solidBrush.Color = ctx.styles.worlds.textColor;
if (ctx.styles.lowerCaseAllegiance)
alleg = alleg.ToLowerInvariant();
ctx.graphics.DrawString(alleg, ctx.styles.worlds.SmallFont, solidBrush, ctx.styles.AllegiancePosition.X, ctx.styles.AllegiancePosition.Y, RenderUtil.StringFormatCentered);
}
}
#endregion
if (!isPlaceholder)
{
#region GasGiant
if (ctx.styles.worldDetails.HasFlag(WorldDetails.GasGiant))
{
if (world.GasGiants > 0)
{
solidBrush.Color = ctx.styles.worlds.textColor;
RenderUtil.DrawGlyph(ctx.graphics, Glyph.Circle, styleRes, solidBrush, ctx.styles.GasGiantPosition.X, ctx.styles.GasGiantPosition.Y);
}
}
#endregion
#region Starport
if (ctx.styles.worldDetails.HasFlag(WorldDetails.Starport))
{
string starport = world.Starport.ToString();
DrawWorldLabel(ctx, worldTextBackgroundStyle, solidBrush, ctx.styles.worlds.textColor, ctx.styles.StarportPosition, styleRes.StarportFont, starport);
}
#endregion
#region UWP
if (renderUWP)
{
string uwp = world.UWP;
solidBrush.Color = ctx.styles.worlds.textColor;
ctx.graphics.DrawString(uwp, ctx.styles.hexNumber.Font, solidBrush, ctx.styles.StarportPosition.X, -ctx.styles.StarportPosition.Y, RenderUtil.StringFormatCentered);
}
#endregion
#region Bases
// TODO: Mask off background for glyphs
if (ctx.styles.worldDetails.HasFlag(WorldDetails.Bases))
{
string bases = world.Bases;
// Special case: Show Zho Naval+Military as diamond
if (world.BaseAllegiance == "Zh" && bases == "KM")
bases = "Z";
// Base 1
bool bottomUsed = false;
if (bases.Length > 0)
{
Glyph glyph = Glyph.FromBaseCode(world.BaseAllegiance, bases[0]);
if (glyph.Printable)
{
PointF pt = ctx.styles.BaseTopPosition;
if (glyph.Bias == Glyph.GlyphBias.Bottom)
{
pt = ctx.styles.BaseBottomPosition;
bottomUsed = true;
}
solidBrush.Color = glyph.IsHighlighted ? ctx.styles.worlds.textHighlightColor : ctx.styles.worlds.textColor;
RenderUtil.DrawGlyph(ctx.graphics, glyph, styleRes, solidBrush, pt.X, pt.Y);
}
}
// Base 2
if (bases.Length > 1)
{
Glyph glyph = Glyph.FromBaseCode(world.LegacyAllegiance, bases[1]);
if (glyph.Printable)
{
PointF pt = bottomUsed ? ctx.styles.BaseTopPosition : ctx.styles.BaseBottomPosition;
solidBrush.Color = glyph.IsHighlighted ? ctx.styles.worlds.textHighlightColor : ctx.styles.worlds.textColor;
RenderUtil.DrawGlyph(ctx.graphics, glyph, styleRes, solidBrush, pt.X, pt.Y);
}
}
// Research Stations
string rs;
if ((rs = world.ResearchStation) != null)
{
Glyph glyph = Glyph.FromResearchCode(rs);
solidBrush.Color = glyph.IsHighlighted ? ctx.styles.worlds.textHighlightColor : ctx.styles.worlds.textColor;
RenderUtil.DrawGlyph(ctx.graphics, glyph, styleRes, solidBrush, ctx.styles.BaseMiddlePosition.X, ctx.styles.BaseMiddlePosition.Y);
}
else if (world.IsReserve)
{
Glyph glyph = Glyph.Reserve;
solidBrush.Color = glyph.IsHighlighted ? ctx.styles.worlds.textHighlightColor : ctx.styles.worlds.textColor;
RenderUtil.DrawGlyph(ctx.graphics, glyph, styleRes, solidBrush, ctx.styles.BaseMiddlePosition.X, 0);
}
else if (world.IsPenalColony)
{
Glyph glyph = Glyph.Prison;
solidBrush.Color = glyph.IsHighlighted ? ctx.styles.worlds.textHighlightColor : ctx.styles.worlds.textColor;
RenderUtil.DrawGlyph(ctx.graphics, glyph, styleRes, solidBrush, ctx.styles.BaseMiddlePosition.X, 0);
}
else if (world.IsPrisonExileCamp)
{
Glyph glyph = Glyph.ExileCamp;
solidBrush.Color = glyph.IsHighlighted ? ctx.styles.worlds.textHighlightColor : ctx.styles.worlds.textColor;
RenderUtil.DrawGlyph(ctx.graphics, glyph, styleRes, solidBrush, ctx.styles.BaseMiddlePosition.X, 0);
}
}
#endregion
}
#region Disc
if (ctx.styles.worldDetails.HasFlag(WorldDetails.Type))
{
if (isPlaceholder)
{
DrawWorldLabel(ctx, ctx.styles.placeholder.textBackgroundStyle, solidBrush, ctx.styles.placeholder.textColor, ctx.styles.placeholder.position, ctx.styles.placeholder.Font, ctx.styles.placeholder.content);
}
else
{
if (world.Size <= 0)
{
#region Asteroid-Belt
if (ctx.styles.worldDetails.HasFlag(WorldDetails.Asteroids))
{
// Basic pattern, with probability varying per position:
// o o o
// o o o o
// o o o
int[] lpx = { -2, 0, 2, -3, -1, 1, 3, -2, 0, 2 };
int[] lpy = { -2, -2, -2, 0, 0, 0, 0, 2, 2, 2 };
float[] lpr = { 0.5f, 0.9f, 0.5f, 0.6f, 0.9f, 0.9f, 0.6f, 0.5f, 0.9f, 0.5f };
solidBrush.Color = ctx.styles.worlds.textColor;
// Random generator is seeded with world location so it is always the same
Random rand = new Random(world.Coordinates.X ^ world.Coordinates.Y);
for (int i = 0; i < lpx.Length; ++i)
{
if (rand.NextDouble() < lpr[i])
{
float px = lpx[i] * 0.035f;
float py = lpy[i] * 0.035f;
float w = 0.04f + (float)rand.NextDouble() * 0.03f;
float h = 0.04f + (float)rand.NextDouble() * 0.03f;
// If necessary, add jitter here
float dx = 0, dy = 0;
ctx.graphics.DrawEllipse(solidBrush,
px + dx - w / 2, py + dy - h / 2, w, h);
}
}
}
else
{
// Just a glyph
solidBrush.Color = ctx.styles.worlds.textColor;
RenderUtil.DrawGlyph(ctx.graphics, Glyph.DiamondX, styleRes, solidBrush, 0.0f, 0.0f);
}
#endregion
}
else
{
XColor penColor, brushColor;
ctx.styles.WorldColors(world, out penColor, out brushColor);
if (!brushColor.IsEmpty)
{
solidBrush.Color = brushColor;
ctx.graphics.DrawEllipse(solidBrush, -0.1f, -0.1f, 0.2f, 0.2f);
}
if (!penColor.IsEmpty)
{
ctx.styles.worldWater.pen.Apply(ref pen);
pen.Color = penColor;
ctx.graphics.DrawEllipse(pen, -0.1f, -0.1f, 0.2f, 0.2f);
}
}
}
}
else
{
// Dotmap
solidBrush.Color = ctx.styles.worlds.textColor;
ctx.graphics.DrawEllipse(solidBrush, -0.2f, -0.2f, 0.4f, 0.4f);
}
#endregion
}
}
else // ctx.styles.useWorldImages
{
float imageRadius = ((world.Size <= 0) ? 0.6f : (0.3f * (world.Size / 5.0f + 0.2f))) / 2;
float decorationRadius = imageRadius;
if (layer == WorldLayer.Background)
{
#region Disc
if (ctx.styles.worldDetails.HasFlag(WorldDetails.Type))
{
if (isPlaceholder)
{
DrawWorldLabel(ctx, ctx.styles.placeholder.textBackgroundStyle, solidBrush, ctx.styles.placeholder.textColor, ctx.styles.placeholder.position, ctx.styles.placeholder.Font, ctx.styles.placeholder.content);
}
else if (world.Size <= 0)
{
const float scaleX = 1.5f;
const float scaleY = 1.0f;
XImage img = s_worldImages["Belt"];
lock (img)
{
ctx.graphics.DrawImage(img, -imageRadius * scaleX, -imageRadius * scaleY, imageRadius * 2 * scaleX, imageRadius * 2 * scaleY);
}
}
else
{
XImage img;
switch (world.Hydrographics)
{
default:
case 0x0: img = s_worldImages["Hyd0"]; break;
case 0x1: img = s_worldImages["Hyd1"]; break;
case 0x2: img = s_worldImages["Hyd2"]; break;
case 0x3: img = s_worldImages["Hyd3"]; break;
case 0x4: img = s_worldImages["Hyd4"]; break;
case 0x5: img = s_worldImages["Hyd5"]; break;
case 0x6: img = s_worldImages["Hyd6"]; break;
case 0x7: img = s_worldImages["Hyd7"]; break;
case 0x8: img = s_worldImages["Hyd8"]; break;
case 0x9: img = s_worldImages["Hyd9"]; break;
case 0xA: img = s_worldImages["HydA"]; break;
}
if (img != null)
{
lock (img)
{
ctx.graphics.DrawImage(img, -imageRadius, -imageRadius, imageRadius * 2, imageRadius * 2);
}
}
}
}
else
{
// Dotmap
solidBrush.Color = ctx.styles.worlds.textColor;
ctx.graphics.DrawEllipse(solidBrush, -0.2f, -0.2f, 0.4f, 0.4f);
}
#endregion
}
if (isPlaceholder)
return;
if (layer == WorldLayer.Foreground)
{
#region Zone
if (ctx.styles.worldDetails.HasFlag(WorldDetails.Zone))
{
if (world.IsAmber || world.IsRed || world.IsBlue)
{
PenInfo pi =
world.IsAmber ? ctx.styles.amberZone.pen :
world.IsRed ? ctx.styles.redZone.pen : ctx.styles.blueZone.pen;
pi.Apply(ref pen);
// TODO: Try and accomplish this using dash pattern
decorationRadius += 0.1f;
ctx.graphics.DrawArc(pen, -decorationRadius, -decorationRadius, decorationRadius * 2, decorationRadius * 2, 5, 80);
ctx.graphics.DrawArc(pen, -decorationRadius, -decorationRadius, decorationRadius * 2, decorationRadius * 2, 95, 80);
ctx.graphics.DrawArc(pen, -decorationRadius, -decorationRadius, decorationRadius * 2, decorationRadius * 2, 185, 80);
ctx.graphics.DrawArc(pen, -decorationRadius, -decorationRadius, decorationRadius * 2, decorationRadius * 2, 275, 80);
}
}
#endregion
#region GasGiant
if (ctx.styles.worldDetails.HasFlag(WorldDetails.GasGiant))
{
if (world.GasGiants > 0)
{
decorationRadius += 0.1f;
const float symbolRadius = 0.05f;
solidBrush.Color = ctx.styles.worlds.textHighlightColor; ;
ctx.graphics.DrawEllipse(solidBrush, decorationRadius - symbolRadius, 0.0f - symbolRadius, symbolRadius * 2, symbolRadius * 2);
}
}
#endregion
#region UWP
if (renderUWP)
{
string uwp = world.UWP;
solidBrush.Color = ctx.styles.worlds.textColor;
using (RenderUtil.SaveState(ctx.graphics))
{
XMatrix uwpMatrix = new XMatrix();
uwpMatrix.TranslatePrepend(decorationRadius, 0.0f);
uwpMatrix.ScalePrepend(ctx.styles.worlds.textStyle.Scale.Width, ctx.styles.worlds.textStyle.Scale.Height);
uwpMatrix.Multiply(uwpMatrix, XMatrixOrder.Prepend);
ctx.graphics.DrawString(uwp, ctx.styles.hexNumber.Font, solidBrush, ctx.styles.StarportPosition.X, -ctx.styles.StarportPosition.Y, RenderUtil.StringFormatCenterLeft);
}
}
#endregion
#region Name
if (renderName)
{
string name = world.Name;
if (isHiPop)
name = name.ToUpperInvariant();
using (RenderUtil.SaveState(ctx.graphics))
{
Color textColor = (isCapital && ctx.styles.worldDetails.HasFlag(WorldDetails.Highlight))
? ctx.styles.worlds.textHighlightColor : ctx.styles.worlds.textColor;
if (ctx.styles.worlds.textStyle.Uppercase)
name = name.ToUpper();
decorationRadius += 0.1f;
XMatrix imageMatrix = new XMatrix();
imageMatrix.TranslatePrepend(decorationRadius, 0.0f);
imageMatrix.ScalePrepend(ctx.styles.worlds.textStyle.Scale.Width, ctx.styles.worlds.textStyle.Scale.Height);
imageMatrix.TranslatePrepend(ctx.graphics.MeasureString(name, ctx.styles.worlds.Font).Width / 2, 0.0f); // Left align
ctx.graphics.MultiplyTransform(imageMatrix, XMatrixOrder.Prepend);
DrawWorldLabel(ctx, ctx.styles.worlds.textBackgroundStyle, solidBrush, textColor, ctx.styles.worlds.textStyle.Translation, ctx.styles.worlds.Font, name);
}
}
#endregion
}
}
}
}
/// <summary>
/// Multiplies the transformation matrix of this object and specified matrix in the specified order.
/// </summary>
public void MultiplyTransform(XMatrix matrix, XMatrixOrder order)
{
//XMatrix matrix2 = this.transform;
//matrix2.Multiply(matrix, order);
//Transform = matrix2;
XMatrix matrix2 = new XMatrix(); //XMatrix.Identity;
matrix2.Prepend(matrix);
AddTransform(matrix2, order);
}
/// <summary>
/// Saves a graphics container with the current state of this XGraphics and
/// opens and uses a new graphics container.
/// </summary>
public XGraphicsContainer BeginContainer(XRect dstrect, XRect srcrect, XGraphicsUnit unit)
{
// TODO: unit
if (unit != XGraphicsUnit.Point)
throw new ArgumentException("The current implementation supports XGraphicsUnit.Point only.", "unit");
XGraphicsContainer xContainer = null;
#if GDI
if (this.targetContext == XGraphicTargetContext.GDI)
xContainer = new XGraphicsContainer(this.gfx.Save());
#endif
#if WPF
if (this.targetContext == XGraphicTargetContext.WPF)
xContainer = new XGraphicsContainer();
#endif
InternalGraphicsState iState = new InternalGraphicsState(this, xContainer);
iState.Transform = this.transform;
this.gsStack.Push(iState);
if (this.renderer != null)
this.renderer.BeginContainer(xContainer, dstrect, srcrect, unit);
XMatrix matrix = new XMatrix(); //XMatrix.Identity;
#if true
double scaleX = dstrect.Width / srcrect.Width;
double scaleY = dstrect.Height / srcrect.Height;
matrix.TranslatePrepend(-srcrect.X, -srcrect.Y);
matrix.ScalePrepend(scaleX, scaleY);
matrix.TranslatePrepend(dstrect.X / scaleX, dstrect.Y / scaleY);
#else
matrix.Translate(-dstrect.X, -dstrect.Y);
matrix.Scale(dstrect.Width / srcrect.Width, dstrect.Height / srcrect.Height);
matrix.Translate(srcrect.X, srcrect.Y);
#endif
AddTransform(matrix, XMatrixOrder.Prepend);
return xContainer;
}
/// <summary>
/// Internal setup.
/// </summary>
void Initialize()
{
this.pageOrigin = new XPoint();
XMatrix matrix = new XMatrix(); //XMatrix.Identity;
double pageHeight = this.pageSize.height;
PdfPage targetPage = PdfPage;
XPoint trimOffset = new XPoint();
if (targetPage != null && targetPage.TrimMargins.AreSet)
{
pageHeight += targetPage.TrimMargins.Top.Point + targetPage.TrimMargins.Bottom.Point;
trimOffset = new XPoint(targetPage.TrimMargins.Left.Point, targetPage.TrimMargins.Top.Point);
}
#if GDI
if (this.targetContext == XGraphicTargetContext.GDI)
{
if (this.gfx != null)
matrix = (XMatrix)gfx.Transform;
if (this.pageUnit != XGraphicsUnit.Point)
{
switch (this.pageUnit)
{
case XGraphicsUnit.Inch:
matrix.ScalePrepend(XUnit.InchFactor);
break;
case XGraphicsUnit.Millimeter:
matrix.ScalePrepend(XUnit.MillimeterFactor);
break;
case XGraphicsUnit.Centimeter:
matrix.ScalePrepend(XUnit.CentimeterFactor);
break;
case XGraphicsUnit.Presentation:
matrix.ScalePrepend(XUnit.PresentationFactor);
break;
}
}
}
#endif
#if WPF
if (this.targetContext == XGraphicTargetContext.WPF)
{
if (this.pageUnit != XGraphicsUnit.Presentation)
{
switch (this.pageUnit)
{
case XGraphicsUnit.Point:
matrix.ScalePrepend(XUnit.PointFactorWpf);
break;
case XGraphicsUnit.Inch:
matrix.ScalePrepend(XUnit.InchFactorWpf);
break;
case XGraphicsUnit.Millimeter:
matrix.ScalePrepend(XUnit.MillimeterFactorWpf);
break;
case XGraphicsUnit.Centimeter:
matrix.ScalePrepend(XUnit.CentimeterFactorWpf);
break;
}
if (!matrix.IsIdentity)
{
#if !SILVERLIGHT
MatrixTransform transform = new MatrixTransform((System.Windows.Media.Matrix)matrix);
dc.PushTransform(transform);
#else
MatrixTransform transform2 = new MatrixTransform();
transform2.Matrix = (System.Windows.Media.Matrix)matrix;
dc.PushTransform(transform2);
#endif
}
}
}
#endif
if (this.pageDirection == XPageDirection.Upwards)
matrix.Prepend(new XMatrix(1, 0, 0, -1, 0, pageHeight));
if (trimOffset != new XPoint())
matrix.TranslatePrepend(trimOffset.x, trimOffset.y);
this.defaultViewMatrix = matrix;
this.transform = new XMatrix(); //XMatrix.Identity;
}
//public Region Clip { get; set; }
//public RectangleF ClipBounds { get; }
//public CompositingMode CompositingMode { get; set; }
//public CompositingQuality CompositingQuality { get; set; }
//public float DpiX { get; }
//public float DpiY { get; }
//public InterpolationMode InterpolationMode { get; set; }
//public bool IsClipEmpty { get; }
//public bool IsVisibleClipEmpty { get; }
//public float PageScale { get; set; }
//public GraphicsUnit PageUnit { get; set; }
//public PixelOffsetMode PixelOffsetMode { get; set; }
//public Point RenderingOrigin { get; set; }
//public SmoothingMode SmoothingMode { get; set; }
//public int TextContrast { get; set; }
//public TextRenderingHint TextRenderingHint { get; set; }
//public Matrix Transform { get; set; }
//public RectangleF VisibleClipBounds { get; }
#endregion
// --------------------------------------------------------------------------------------------
#region Transformation
/// <summary>
/// Applies the specified translation operation to the transformation matrix of this object by
/// prepending it to the object's transformation matrix.
/// </summary>
public void TranslateTransform(double dx, double dy)
{
XMatrix matrix = new XMatrix(); //XMatrix.Identity;
matrix.TranslatePrepend(dx, dy);
AddTransform(matrix, XMatrixOrder.Prepend);
}
/// <summary>
/// Sets the entry to a direct matrix value, represented by an array with six values.
/// </summary>
public void SetMatrix(string key, XMatrix matrix)
{
this.elements[key] = PdfLiteral.FromMatrix(matrix);
}
/// <summary>
/// Applies the specified translation operation to the transformation matrix of this object
/// in the specified order.
/// </summary>
public void TranslateTransform(double dx, double dy, XMatrixOrder order)
{
//XMatrix matrix = this.transform;
//matrix.Translate(dx, dy, order);
//Transform = matrix;
XMatrix matrix = new XMatrix(); //XMatrix.Identity;
matrix.TranslatePrepend(dx, dy);
AddTransform(matrix, order);
}
/// <summary>
/// Draws the vertical Y axis.
/// </summary>
internal override void Draw()
{
AxisRendererInfo yari = ((ChartRendererInfo)this.rendererParms.RendererInfo).yAxisRendererInfo;
double yMin = yari.MinimumScale;
double yMax = yari.MaximumScale;
double yMajorTick = yari.MajorTick;
double yMinorTick = yari.MinorTick;
XMatrix matrix = new XMatrix(); //XMatrix.Identity;
matrix.TranslatePrepend(-yMin, -yari.Y);
matrix.Scale(yari.InnerRect.Width / (yMax - yMin), 1, XMatrixOrder.Append);
matrix.Translate(yari.X, yari.Y, XMatrixOrder.Append);
// Draw axis.
// First draw tick marks, second draw axis.
double majorTickMarkStart = 0, majorTickMarkEnd = 0,
minorTickMarkStart = 0, minorTickMarkEnd = 0;
GetTickMarkPos(yari, ref majorTickMarkStart, ref majorTickMarkEnd, ref minorTickMarkStart, ref minorTickMarkEnd);
XGraphics gfx = this.rendererParms.Graphics;
LineFormatRenderer lineFormatRenderer = new LineFormatRenderer(gfx, yari.LineFormat);
XPoint[] points = new XPoint[2];
if (yari.MinorTickMark != TickMarkType.None)
{
for (double y = yMin + yMinorTick; y < yMax; y += yMinorTick)
{
points[0].X = y;
points[0].Y = minorTickMarkStart;
points[1].X = y;
points[1].Y = minorTickMarkEnd;
matrix.TransformPoints(points);
lineFormatRenderer.DrawLine(points[0], points[1]);
}
}
XStringFormat xsf = new XStringFormat();
xsf.LineAlignment = XLineAlignment.Near;
int countTickLabels = (int)((yMax - yMin) / yMajorTick) + 1;
for (int i = 0; i < countTickLabels; ++i)
{
double y = yMin + yMajorTick * i;
string str = y.ToString(yari.TickLabelsFormat);
XSize labelSize = gfx.MeasureString(str, yari.TickLabelsFont);
if (yari.MajorTickMark != TickMarkType.None)
{
labelSize.Height += 1.5f * yari.MajorTickMarkWidth;
points[0].X = y;
points[0].Y = majorTickMarkStart;
points[1].X = y;
points[1].Y = majorTickMarkEnd;
matrix.TransformPoints(points);
lineFormatRenderer.DrawLine(points[0], points[1]);
}
XPoint[] layoutText = new XPoint[1];
layoutText[0].X = y;
layoutText[0].Y = yari.Y + 1.5 * yari.MajorTickMarkWidth;
matrix.TransformPoints(layoutText);
layoutText[0].X -= labelSize.Width / 2; // Center text vertically.
gfx.DrawString(str, yari.TickLabelsFont, yari.TickLabelsBrush, layoutText[0], xsf);
}
if (yari.LineFormat != null)
{
points[0].X = yMin;
points[0].Y = yari.Y;
points[1].X = yMax;
points[1].Y = yari.Y;
matrix.TransformPoints(points);
if (yari.MajorTickMark != TickMarkType.None)
{
// yMax is at the upper side of the axis
points[0].X -= yari.LineFormat.Width / 2;
points[1].X += yari.LineFormat.Width / 2;
}
lineFormatRenderer.DrawLine(points[0], points[1]);
}
// Draw axis title
if (yari.axisTitleRendererInfo != null)
{
RendererParameters parms = new RendererParameters();
parms.Graphics = gfx;
parms.RendererInfo = yari;
XRect rcTitle = yari.Rect;
rcTitle.Height = yari.axisTitleRendererInfo.Height;
rcTitle.Y += yari.Rect.Height - rcTitle.Height;
yari.axisTitleRendererInfo.Rect = rcTitle;
AxisTitleRenderer atr = new AxisTitleRenderer(parms);
atr.Draw();
}
}
/// <summary>
/// Applies the specified scaling operation to the transformation matrix of this object by
/// prepending it to the object's transformation matrix.
/// </summary>
public void ScaleTransform(double scaleXY)
{
//ScaleTransform(scaleXY, scaleXY, XMatrixOrder.Prepend);
XMatrix matrix = new XMatrix(); //XMatrix.Identity;
matrix.ScalePrepend(scaleXY, scaleXY);
AddTransform(matrix, XMatrixOrder.Prepend);
}
