/// <summary>
/// Creates a 2D rotation.
/// </summary>
/// <param name="angle">The angle in radians.</param>
/// <returns></returns>
public static TikzMatrix RotationMatrix(double angle)
{
TikzMatrix ret = new TikzMatrix();
ret.m[0, 0] = ret.m[1, 1] =Math.Cos(angle);
ret.m[0, 1] = -Math.Sin(angle);
ret.m[1, 0] = -ret.m[0, 1];
return ret;
}
public Parser.TikzMatrix GetTikzToScreenTransform()
{
Parser.TikzMatrix AbsTikzToScreen = new Parser.TikzMatrix();
AbsTikzToScreen.m[0, 0] = View.Resolution;
AbsTikzToScreen.m[1, 1] = -View.Resolution;
AbsTikzToScreen.m[0, 2] = -View.Resolution * View.BB.X;
AbsTikzToScreen.m[1, 2] = View.Resolution * (View.BB.Height + View.BB.Y);
Parser.TikzMatrix total = AbsTikzToScreen * View.CoordinateTransform;
return total;
}
public TikzMatrix Inverse()
{
TikzMatrix mi = new TikzMatrix();
double d = Det();
mi.m[0,0] = m[1, 1] / d;
mi.m[1, 0] = -m[1, 0] / d;
mi.m[0, 1] = -m[0, 1] / d;
mi.m[1, 1] = m[0, 0] / d;
mi.m[0, 2] = - mi.m[0,0] * m[0,2] - mi.m[0,1]*m[1,2];
mi.m[1, 2] = - mi.m[1,0] * m[0, 2] - mi.m[1, 1] * m[1, 2];
return mi;
}
public static TikzMatrix ZeroMatrix()
{
TikzMatrix ret = new TikzMatrix();
ret.m[0, 0] = 0; ret.m[1, 1] = 0;
return ret;
}
/// <summary>
/// Same as above, but additionally the editable shift is returned.
/// (or null if a new one needs to be created)
/// </summary>
/// <param name="ret"></param>
/// <param name="EditableShift"></param>
/// <returns></returns>
bool GetTransformAtEditableShift(out TikzMatrix ret, out Tikz_Option EditableShift)
{
ret = new TikzMatrix(); // stores the coord trsf. at current position
EditableShift = null;
if (!parent.GetCurrentTransformAt(this, out ret))
return false;
//bool foundone = false;
foreach (TikzParseItem tpi in Children)
{
if (tpi is Tikz_Option)
{
Tikz_Option to = tpi as Tikz_Option;
if (to.type == Tikz_OptionType.keyval && to.key.Trim() == "shift")
{
if (to.coordval == null)
return false;
if (to.coordval.type == Tikz_CoordType.Cartesian)
{
// we found one (yoohoo)
EditableShift = to;
return true;
}
}
if (!TransformFromOption(to, ret, out ret))
return false; // invalid coord trafo encountered -> report failure
}
}
EditableShift = null; // nothing found -> return null
return true;
}
/// <summary>
/// It returns, if possible, the coordinate transformation at the shift=... option that will
/// be editted by SetShiftRel(). This method is in particular used by PdfOverlay to draw the raster associated
/// to a scope object.
/// </summary>
/// <param name="ret"></param>
/// <returns>true on success, false if coord trafo could not be determined</returns>
public bool GetTransformAtEditableShift(out TikzMatrix ret)
{
Tikz_Option dummy;
return GetTransformAtEditableShift(out ret, out dummy);
}
/// <summary>
/// Returns the coordinate transfor corresponding to an option, if possible.
/// If the option is not relevant for coordinate tranformation (or not supported), true is returned
/// and newTrafo = oldTrafo. If the option is recognized, but the value cannot be determined,
/// false is returned and newTrafo shouldn't be used.
/// </summary>
/// <param name="to"></param>
/// <param name="oldTrafo"></param>
/// <param name="newTrafo"></param>
/// <returns></returns>
bool TransformFromOption(Tikz_Option to, TikzMatrix oldTrafo, out TikzMatrix newTrafo)
{
TikzMatrix ret = new TikzMatrix();
newTrafo = ret;
if (to.type == Tikz_OptionType.keyval)
{
switch (to.key.Trim())
{
case "xscale":
if (to.numval == null)
return false;
ret.m[0, 0] = to.numval.GetInCM();
break;
case "yscale":
if (to.numval == null)
return false;
ret.m[1, 1] = to.numval.GetInCM();
break;
case "scale":
if (to.numval == null)
return false;
ret.m[0, 0] = to.numval.GetInCM();
ret.m[1, 1] = ret.m[0, 0];
break;
case "xshift":
if (to.numval == null)
return false;
ret.m[0, 2] = to.numval.GetInCM("pt");
break;
case "yshift":
if (to.numval == null)
return false;
ret.m[1, 2] = to.numval.GetInCM("pt");
break;
case "shift":
// shift is complicated.....
if (to.coordval == null)
return false;
if (to.coordval.type == Tikz_CoordType.Named)
{
// for named coord, shift sets the _absolute_ origin of the coord system
// hence we need the absolute coord trafo at the current point!
Point neworig;
if (!to.coordval.GetAbsPos(out neworig, this))
return false;
TikzMatrix Mabs;
if (!parent.GetCurrentTransformAt(this, out Mabs))
return false;
Mabs = Mabs * oldTrafo;
Point theshift = Mabs.Inverse().Transform(neworig);
ret.m[0, 2] = theshift.X;
ret.m[1, 2] = theshift.Y;
}
else if (to.coordval.type == Tikz_CoordType.Cartesian || to.coordval.type == Tikz_CoordType.Polar)
{
Point p = to.coordval.GetCartesian();
ret.m[0, 2] = p.X;
ret.m[1, 2] = p.Y;
}
else
{
// invalid coordinate value
return false;
}
break;
case "rotate":
if (to.numval == null)
return false;
double angle = to.numval.GetInCM() * 2* Math.PI / 360;
ret.m[0, 0] = Math.Cos(angle);
ret.m[1, 0] = Math.Sin(angle);
ret.m[0, 1] = -Math.Sin(angle);
ret.m[1, 1] = Math.Cos(angle);
break;
case "xslant":
if (to.numval == null)
return false;
double amount = to.numval.GetInCM();
ret.m[0, 0] = 1;
ret.m[1, 0] = 0;
ret.m[0, 1] = amount;
ret.m[1, 1] = 1;
break;
case "yslant":
if (to.numval == null)
return false;
amount = to.numval.GetInCM();
ret.m[0, 0] = 1;
ret.m[1, 0] = amount;
ret.m[0, 1] = 0;
ret.m[1, 1] = 1;
break;
default:
// option not relevant for coordinate computation (or not supported) -> ignore
newTrafo = oldTrafo;
return true;
}
}
// if we get here, the option was recognized as relevant for coordinate transf., and the value could be read
newTrafo = oldTrafo * ret;
return true;
}
//public List<Tikz_Option> options = new List<Tikz_Option>();
// public static Tikz_Options FromCommonTree(CommonTree t)
// {
// IM_NODE OPTIONS? nodename? coord? STRING
// Tikz_Options opts = new Tikz_Options();
// foreach (CommonTree tt in t.Children)
// {
// Tikz_Option to = Tikz_Option.FromCommonTree(tt);
// if (to != null)
// opts.options.Add(to);
// }
// return opts;
// }
/* public static TikzMatrix GetTransform(TikzContainerParseItem tcpi)
{
TikzMatrix ret = new TikzMatrix();
double scale = 1, xshift = 0, yshift = 0;
Tikz_Option o = GetOption(tcpi, "xshift", Tikz_OptionType.keyval);
if (o != null)
if (o.numval != null)
xshift = o.numval.GetInCM();
o = GetOption(tcpi, "yshift", Tikz_OptionType.keyval);
if (o != null)
if (o.numval != null)
yshift = o.numval.GetInCM();
o = GetOption(tcpi, "scale", Tikz_OptionType.keyval);
if (o != null)
if (o.numval != null)
scale = o.numval.GetInCM();
ret.m[0, 0] = scale;
ret.m[1, 1] = scale;
ret.m[0, 2] = xshift;
ret.m[1, 2] = yshift;
return ret;
} */
/// <summary>
/// Gets the total coordinate transformation that is encoded in this options block.
/// How this apparently works in Tikz is as follows:
/// (determined by trial and error rather than specification, so hope for the best...)
/// - for each relevant option (shift, xshift, yshift, scale, xscale, yscale) a separate transformation is produced
/// - all those transformations are multiplied
/// </summary>
/// <returns></returns>
public bool GetTransform(out TikzMatrix ret)
{
ret = new TikzMatrix(); // start with unit matrix
foreach (TikzParseItem tpi in Children)
{
if (tpi is Tikz_Option)
{
Tikz_Option to = tpi as Tikz_Option;
if (!TransformFromOption(to, ret, out ret))
return false;
}
}
return true;
/*
double scale=1, xshift=0, yshift=0, xscale=1, yscale=1;
Tikz_Option o = GetOption("xshift", Tikz_OptionType.keyval);
if (o != null)
if (o.numval != null)
xshift = o.numval.GetInCM("pt");
o = GetOption("yshift", Tikz_OptionType.keyval);
if (o != null)
if (o.numval != null)
yshift = o.numval.GetInCM("pt");
o = GetOption("scale", Tikz_OptionType.keyval);
if (o != null)
if (o.numval != null)
scale = o.numval.GetInCM();
o = GetOption("xscale", Tikz_OptionType.keyval);
if (o != null)
if (o.numval != null)
xscale = o.numval.GetInCM();
o = GetOption("yscale", Tikz_OptionType.keyval);
if (o != null)
if (o.numval != null)
yscale = o.numval.GetInCM();
ret.m[0, 0] = scale * xscale;
ret.m[1, 1] = scale * yscale;
ret.m[0, 2] = xshift;
ret.m[1, 2] = yshift; */
//return ret;
}
/// <summary>
/// This method determines the coord transform that should be used for rasterizing the scope's
/// shift. Note that this is tricky since a scope per se does not have an anchor point.
/// We take here as anchor point (i.e., the image of (0,0) under returned coord transformation)
/// the transformed origin of the coordinate system at the position of the editable option shift=...
/// that determines the scope's position.
/// </summary>
/// <param name="ret"></param>
/// <returns></returns>
public bool GetRasterTransform(out TikzMatrix ret)
{
if (options != null)
return options.GetTransformAtEditableShift(out ret);
else
return parent.GetCurrentTransformAt(this, out ret);
}
/* public TikzMatrix GetCurrentTransform()
{
TikzMatrix M;
//M = Tikz_Options.GetTransform(this);
if (options != null)
M = options.GetTransform();
else
M = new TikzMatrix();
if (parent != null)
M = parent.GetCurrentTransform() * M;
return M;
} */
/// <summary>
/// Determines the coordinate transformation at object childtpi,
/// or at the end of the container in case childtpi is null.
/// </summary>
/// <param name="childtpi">The object to determine coordinate trsf. at.</param>
/// <returns>The coordinate transformation.</returns>
public bool GetCurrentTransformAt(TikzParseItem childtpi, out TikzMatrix M)
{
if (parent != null)
{
if (!parent.GetCurrentTransformAt(this, out M))
return false;
}
else
M = new TikzMatrix(); // identity matrix
foreach (TikzParseItem tpi in Children)
{
if (tpi == childtpi && childtpi != null)
{
break;
}
else if (tpi is Tikz_Options)
{
TikzMatrix MM;
if ((tpi as Tikz_Options).GetTransform(out MM))
M = M * MM;
else
return false;
}
}
return true;
}
public void SetCorrectRaster(TikzParseItem tpi, bool IsParent = false)
{
if (ParseTree == null)
return;
if (tpi == null)
{
Tikz_Picture tp = ParseTree.GetTikzPicture();
if (tp != null)
{
TikzMatrix M;
if (!tp.GetCurrentTransformAt(null, out M))
Rasterizer.View.CoordinateTransform = new TikzMatrix(); // if the program gets here, the global coord. transformation could not be understood->ovelay should display nothing
else
Rasterizer.View.CoordinateTransform = M;
//rasterizer.RasterOrigin = M.Transform(new Point(0, 0));
//rasterizer.RasterScale = M.m[1, 1];
Rasterizer.View.IsCartesian = !UsePolarCoordinates;
}
}
else if (tpi is Tikz_Scope)
{
Tikz_Scope ts = tpi as Tikz_Scope;
TikzMatrix M;
if (IsParent)
{
if (!ts.GetCurrentTransformAt(null, out M)) // todo
M = new TikzMatrix(); // broken coords-> take unity as backup
}
else
{
//if (!ts.parent.GetCurrentTransformAt(ts, out M))
// M = new TikzMatrix();
if (!ts.GetRasterTransform(out M))
M = new TikzMatrix();
}
Rasterizer.View.CoordinateTransform = M;
//rasterizer.RasterOrigin = M.Transform(new Point(0, 0));
//rasterizer.RasterScale = M.m[1, 1];
Rasterizer.View.IsCartesian = !IsParent || !UsePolarCoordinates;
}
else if (tpi is Tikz_XYItem)
{
Tikz_XYItem t = tpi as Tikz_XYItem;
Point offset;
if (t.GetAbsPos(out offset, true))
{
TikzMatrix M;
if (!t.parent.GetCurrentTransformAt(t, out M)) //.CloneIt();
M = new TikzMatrix();
M.m[0, 2] = offset.X;
M.m[1, 2] = offset.Y;
//rasterizer.RasterScale = M.m[1, 1];
Rasterizer.View.CoordinateTransform = M;
Rasterizer.View.IsCartesian = !(t.IsPolar());
}
else throw new Exception("In PdfOverlay: Encountered drawn item without valid coordinates");
}
else if (tpi is Tikz_Path)
{
Tikz_Path ts = tpi as Tikz_Path;
TikzMatrix M;
if (IsParent)
{
Point curPointAtEnd;
if (!ts.GetCurrentTransformAt(null, out M)) // todo
M = new TikzMatrix(); // broken coords-> take unity as backup
if (ts.GetAbsOffset(out curPointAtEnd, null))
{
M.m[0, 2] = curPointAtEnd.X;
M.m[1, 2] = curPointAtEnd.Y;
}
}
else
{
if (!ts.parent.GetCurrentTransformAt(ts, out M))
M = new TikzMatrix();
//if (!ts.GetRasterTransform(out M))
// M = new TikzMatrix();
}
Rasterizer.View.CoordinateTransform = M;
//rasterizer.RasterOrigin = M.Transform(new Point(0, 0));
//rasterizer.RasterScale = M.m[1, 1];
Rasterizer.View.IsCartesian = !IsParent || !UsePolarCoordinates;
}
else
Debug.WriteLine("Error in SetCorrectRaster: unsupported type");//Rasterizer.IsCartesian = true; // should not get here
}
