public SkyLabel(RenderContext11 renderContext, Vector3d point, string text, LabelSytle style) { Text = text; Style = style; if (texture == null) { texture = Texture11.FromBitmap(Properties.Resources.circle, 0); } pos = point; center = new Vector3(9, 9, 0); textBatch = new Text3dBatch(80); if (style == LabelSytle.Telrad) { // Telrad-style labels are always screen-aligned Text3d t3 = new Text3d(new Vector3d(0, 0, 0.1), new Vector3d(0, 1, 0), text, 20, .01); t3.alignment = Text3d.Alignment.Left; textBatch.Add(t3); } else { // This will produce sky or orbit aligned text textBatch.Add(new Text3d(pos, new Vector3d(0, 1, 0), text, 20, .01)); } }
public SkyLabel(RenderContext11 renderContext, double ra, double dec, string text, LabelSytle style, double distance) { RA = ra; Dec = dec; Text = text; Style = style; Distance = distance; if (texture == null) { texture = Texture11.FromBitmap(Properties.Resources.circle, 0); } Vector3d up = new Vector3d(); Vector3d textPos = new Vector3d(); if (Earth3d.MainWindow.SolarSystemMode) { pos = Coordinates.RADecTo3d(ra, -dec, distance); up = Coordinates.RADecTo3d(ra, -dec + 90, distance); pos.RotateX(Coordinates.MeanObliquityOfEcliptic(SpaceTimeController.JNow) / 180.0 * Math.PI); pos.Add(Planets.GetPlanet3dLocation(SolarSystemObjects.Earth)); up.RotateX(Coordinates.MeanObliquityOfEcliptic(SpaceTimeController.JNow) / 180.0 * Math.PI); up.Add(Planets.GetPlanet3dLocation(SolarSystemObjects.Earth)); } else { pos = Coordinates.RADecTo3d(ra + 12, dec, distance); textPos = Coordinates.RADecTo3d(ra + 12, dec + 2, distance); up = Coordinates.RADecTo3d(ra + 12, dec + 92, distance); } center = new Vector3(9, 9, 0); textBatch = new Text3dBatch(24); if (style == LabelSytle.Telrad) { // Telrad-style labels are always screen-aligned Text3d t3 = new Text3d(new Vector3d(0, 0, 0.1), new Vector3d(0, 1, 0), text, 20, .01); t3.alignment = Text3d.Alignment.Left; textBatch.Add(t3); } else { up.Normalize(); textPos.Normalize(); textBatch.Add(new Text3d(textPos, up, text, 20, .0005)); } }
public SkyLabel(RenderContext11 renderContext, Vector3d point, string text, LabelSytle style) { Text = text; Style = style; if (texture == null) { texture = Texture11.FromBitmap(Resources.circle, 0); } pos = point; center = new Vector3(9, 9, 0); textBatch = new Text3dBatch(80); if (style == LabelSytle.Telrad) { // Telrad-style labels are always screen-aligned var t3 = new Text3d(new Vector3d(0, 0, 0.1), new Vector3d(0, 1, 0), text, 20, .01); t3.alignment = Text3d.Alignment.Left; textBatch.Add(t3); } else { // This will produce sky or orbit aligned text textBatch.Add(new Text3d(pos, new Vector3d(0,1,0), text, 20, .01)); } }
public SkyLabel(RenderContext11 renderContext, double ra, double dec, string text, LabelSytle style, double distance) { RA = ra; Dec = dec; Text = text; Style = style; Distance = distance; if (texture == null) { texture = Texture11.FromBitmap(Resources.circle, 0); } var up = new Vector3d(); var textPos = new Vector3d(); if (Earth3d.MainWindow.SolarSystemMode) { pos = Coordinates.RADecTo3d(ra, -dec, distance); up = Coordinates.RADecTo3d(ra, -dec + 90, distance); pos.RotateX(Coordinates.MeanObliquityOfEcliptic(SpaceTimeController.JNow) / 180.0 * Math.PI); pos.Add(Planets.GetPlanet3dLocation(SolarSystemObjects.Earth)); up.RotateX(Coordinates.MeanObliquityOfEcliptic(SpaceTimeController.JNow) / 180.0 * Math.PI); up.Add(Planets.GetPlanet3dLocation(SolarSystemObjects.Earth)); } else { pos = Coordinates.RADecTo3d(ra+12, dec, distance); textPos = Coordinates.RADecTo3d(ra + 12, dec + 2, distance); up = Coordinates.RADecTo3d(ra+12, dec + 92, distance); } center = new Vector3(9, 9, 0); textBatch = new Text3dBatch(24); if (style == LabelSytle.Telrad) { // Telrad-style labels are always screen-aligned var t3 = new Text3d(new Vector3d(0, 0, 0.1), new Vector3d(0, 1, 0), text, 20, .01); t3.alignment = Text3d.Alignment.Left; textBatch.Add(t3); } else { up.Normalize(); textPos.Normalize(); textBatch.Add(new Text3d(textPos, up, text, 20, .0005)); } }