OTHER2017/plots/Plotty.h

#ifndef PLOTTY_H
#define PLOTTY_H

#include <Indoor/floorplan/v2/Floorplan.h>
#include <Indoor/floorplan/v2/FloorplanHelper.h>
#include <Indoor/geo/BBoxes3.h>

#include <KLib/misc/gnuplot/Gnuplot.h>
#include <KLib/misc/gnuplot/GnuplotSplot.h>
#include <KLib/misc/gnuplot/GnuplotSplotElementPoints.h>
#include <KLib/misc/gnuplot/GnuplotSplotElementColorPoints.h>
#include <KLib/misc/gnuplot/GnuplotSplotElementLines.h>
#include <KLib/misc/gnuplot/GnuplotSplotElementPM3D.h>
#include <KLib/misc/gnuplot/GnuplotSplotElementEmpty.h>

#include <KLib/misc/gnuplot/GnuplotPlot.h>
#include <KLib/misc/gnuplot/GnuplotPlotElementHistogram.h>
#include <KLib/misc/gnuplot/objects/GnuplotObjects.h>

struct Color {

	uint8_t r;
	uint8_t g;
	uint8_t b;

	Color() : r(0), g(0), b(0) {
		;
	}

	static Color fromRGB(const uint8_t r, const uint8_t g, const uint8_t b) {
		Color c; c.setRGB(r,g,b);
		return c;
	}

	static Color fromHSV(const uint8_t h, const uint8_t s, const uint8_t v) {
		Color c; c.setHSV(h,s,v);
		return c;
	}

	void setRGB(const uint8_t r, const uint8_t g, const uint8_t b) {
		this->r = r;
		this->g = g;
		this->b = b;
	}

	void setHSV(const uint8_t h, const uint8_t s, const uint8_t v) {

		uint8_t region, remainder, p, q, t;

		region = h / 43;
		remainder = (h - (region * 43)) * 6;

		p = (v * (255 - s)) >> 8;
		q = (v * (255 - ((s * remainder) >> 8))) >> 8;
		t = (v * (255 - ((s * (255 - remainder)) >> 8))) >> 8;

		switch (region) {
			case 0:
				r = v; g = t; b = p;
				break;
			case 1:
				r = q; g = v; b = p;
				break;
			case 2:
				r = p; g = v; b = t;
				break;
			case 3:
				r = p; g = q; b = v;
				break;
			case 4:
				r = t; g = p; b = v;
				break;
			default:
				r = v; g = p; b = q;
				break;
		}

	}

	std::string toHEX() const {
		char buf[8];
		sprintf(buf, "#%02x%02x%02x", r, g, b);
		std::string color(buf);
		return color;
	}

};


class Plotty {

public:

	const Floorplan::IndoorMap* map;
	K::Gnuplot gp;
	K::GnuplotSplot splot;
	K::GnuplotSplotElementPoints points;
	K::GnuplotSplotElementColorPoints cpoints;

	K::GnuplotSplotElementLines pathReal;
	K::GnuplotSplotElementLines pathEst;
	K::GnuplotSplotElementColorPoints particles;

	K::GnuplotSplotElementLines mapOutlineGlass;
	K::GnuplotSplotElementLines mapOutlineDrywall;
	K::GnuplotSplotElementLines mapOutlineConcrete;
	K::GnuplotSplotElementLines mapBBoxes;

	K::GnuplotSplotElementEmpty emptyElem;


	K::GnuplotSplotElementPM3D pm3doutline;

	std::string codeFile;

	struct Settings {
		std::vector<int> floors = {};
		bool stairs = true;
		bool obstacles = true;
		bool outline = true;
		bool outlineColorCustom = false;
		bool skipI1 = false;
		K::GnuplotColor outlineColor = K::GnuplotColor::fromRGB(128,128,128);
		float minZ = -9999;
		float maxZ = +9999;
	} settings;

public:

	Plotty(const Floorplan::IndoorMap* map) : map(map) {

		//gp << "set view equal xy\n";

		//gp << "set palette model RGB\n";
		//gp << "r(x) = (x < 0) ? 0 : (x/2)\n";
		//gp << "g(x) = 0\n";
		//gp << "b(x) = (x > 0) ? 0 : (-x/2)\n";
		//gp << "set palette model RGB functions r(gray),g(gray),b(gray)\n";
		gp << "set ticslevel 0\n";


		// how to draw the floorplan
		mapOutlineConcrete.getStroke().getColor().setHexStr("#888888");		mapOutlineConcrete.getStroke().setWidth(2);
		mapOutlineDrywall.getStroke().getColor().setHexStr("#888888");
		mapOutlineGlass.getStroke().getColor().setHexStr("#888888");		mapOutlineGlass.getStroke().setType(K::GnuplotDashtype::DASHED);
		mapBBoxes.getStroke().setWidth(2);

		splot.add(&emptyElem);

		splot.add(&mapOutlineConcrete);
		splot.add(&mapOutlineDrywall);
		splot.add(&mapOutlineGlass);
		splot.add(&mapBBoxes);

		splot.add(&particles); particles.setPointSize(0.20); //particles.setColorHex("#777777");

		splot.add(&pathReal); pathReal.getStroke().setWidth(2); pathReal.getStroke().getColor().setHexStr("#000000");
		splot.add(&pathEst); pathEst.getStroke().setWidth(2); pathEst.getStroke().getColor().setHexStr("#0000ff");

		splot.add(&pm3doutline);

		splot.add(&points);
		points.setPointType(7);
		points.setPointSize(0.5);

		splot.add(&cpoints);
		cpoints.setPointSize(2);
		cpoints.setPointType(7);

	}

	void addBBoxes(const BBoxes3& boxes, const K::GnuplotColor& c) {
		for (BBox3 bb : boxes.get()) {
			//&&addBBoxPoly(bb, c);
			//bb.shrink(0.98);
			addBBoxPoly2(bb, c);
		}
	}

	void addBBoxPoly2(const BBox3& bb, const K::GnuplotColor& color) {


		K::GnuplotFill filler = K::GnuplotFill(K::GnuplotFillStyle::SOLID, color);
		K::GnuplotStroke stroke(K::GnuplotDashtype::NONE, 1, color);

		K::GnuplotObjectPolygon* gpol1 = new K::GnuplotObjectPolygon(filler, stroke);
		gpol1->add(K::GnuplotCoordinate3(bb.getMin().x, bb.getMin().y, bb.getMin().z, K::GnuplotCoordinateSystem::FIRST));
		gpol1->add(K::GnuplotCoordinate3(bb.getMax().x, bb.getMin().y, bb.getMin().z, K::GnuplotCoordinateSystem::FIRST));
		gpol1->add(K::GnuplotCoordinate3(bb.getMax().x, bb.getMax().y, bb.getMin().z, K::GnuplotCoordinateSystem::FIRST));
		gpol1->add(K::GnuplotCoordinate3(bb.getMin().x, bb.getMax().y, bb.getMin().z, K::GnuplotCoordinateSystem::FIRST));
		gpol1->close();
		gpol1->setZIndex(bb.getMin().z - 0.1);
		splot.getObjects().add(gpol1);

		K::GnuplotColor color2 = K::GnuplotColor::fromRGB(128,128,128);
		K::GnuplotStroke stroke2(K::GnuplotDashtype::NONE, 1, color2);
		K::GnuplotFill noFiller = K::GnuplotFill(K::GnuplotFillStyle::EMPTY_BORDER, color2);

		K::GnuplotObjectPolygon* gpol2 = new K::GnuplotObjectPolygon(noFiller, stroke2);
		gpol2->add(K::GnuplotCoordinate3(bb.getMin().x, bb.getMin().y, bb.getMax().z-2, K::GnuplotCoordinateSystem::FIRST));
		gpol2->add(K::GnuplotCoordinate3(bb.getMax().x, bb.getMin().y, bb.getMax().z-2, K::GnuplotCoordinateSystem::FIRST));
		gpol2->add(K::GnuplotCoordinate3(bb.getMax().x, bb.getMax().y, bb.getMax().z-2, K::GnuplotCoordinateSystem::FIRST));
		gpol2->add(K::GnuplotCoordinate3(bb.getMin().x, bb.getMax().y, bb.getMax().z-2, K::GnuplotCoordinateSystem::FIRST));
		gpol2->close();
		gpol2->setZIndex(bb.getMin().z + 3.1);
		splot.getObjects().add(gpol2);

		K::GnuplotObjectPolygon* gpol3a = new K::GnuplotObjectPolygon(noFiller, stroke2);
		gpol3a->add(K::GnuplotCoordinate3(bb.getMin().x, bb.getMin().y, bb.getMin().z, K::GnuplotCoordinateSystem::FIRST));
		gpol3a->add(K::GnuplotCoordinate3(bb.getMin().x, bb.getMin().y, bb.getMax().z-2, K::GnuplotCoordinateSystem::FIRST));
		gpol3a->setZIndex(bb.getMin().z + 1.1);
		splot.getObjects().add(gpol3a);
		K::GnuplotObjectPolygon* gpol3b = new K::GnuplotObjectPolygon(noFiller, stroke2);
		gpol3b->add(K::GnuplotCoordinate3(bb.getMax().x, bb.getMin().y, bb.getMin().z, K::GnuplotCoordinateSystem::FIRST));
		gpol3b->add(K::GnuplotCoordinate3(bb.getMax().x, bb.getMin().y, bb.getMax().z-2, K::GnuplotCoordinateSystem::FIRST));
		gpol3b->setZIndex(bb.getMin().z + 1.1);
		splot.getObjects().add(gpol3b);
		K::GnuplotObjectPolygon* gpol3c = new K::GnuplotObjectPolygon(noFiller, stroke2);
		gpol3c->add(K::GnuplotCoordinate3(bb.getMin().x, bb.getMax().y, bb.getMin().z, K::GnuplotCoordinateSystem::FIRST));
		gpol3c->add(K::GnuplotCoordinate3(bb.getMin().x, bb.getMax().y, bb.getMax().z-2, K::GnuplotCoordinateSystem::FIRST));
		gpol3c->setZIndex(bb.getMin().z + 1.1);
		splot.getObjects().add(gpol3c);
		K::GnuplotObjectPolygon* gpol3d = new K::GnuplotObjectPolygon(noFiller, stroke2);
		gpol3d->add(K::GnuplotCoordinate3(bb.getMax().x, bb.getMax().y, bb.getMin().z, K::GnuplotCoordinateSystem::FIRST));
		gpol3d->add(K::GnuplotCoordinate3(bb.getMax().x, bb.getMax().y, bb.getMax().z-2, K::GnuplotCoordinateSystem::FIRST));
		gpol3d->setZIndex(bb.getMin().z + 1.1);
		splot.getObjects().add(gpol3d);


	}

	void addBBox(const BBox3& bb) {


//		// floor
//		mapBBoxes.add({bb.getMin().x, bb.getMin().y, bb.getMin().z});
//		mapBBoxes.add({bb.getMax().x, bb.getMin().y, bb.getMin().z});
//		mapBBoxes.add({bb.getMax().x, bb.getMax().y, bb.getMin().z});
//		mapBBoxes.add({bb.getMin().x, bb.getMax().y, bb.getMin().z});
//		mapBBoxes.add({bb.getMin().x, bb.getMin().y, bb.getMin().z});
//		mapBBoxes.splitFace(); mapBBoxes.splitFace();

//		// ceil
//		mapBBoxes.add({bb.getMin().x, bb.getMin().y, bb.getMax().z});
//		mapBBoxes.add({bb.getMax().x, bb.getMin().y, bb.getMax().z});
//		mapBBoxes.add({bb.getMax().x, bb.getMax().y, bb.getMax().z});
//		mapBBoxes.add({bb.getMin().x, bb.getMax().y, bb.getMax().z});
//		mapBBoxes.add({bb.getMin().x, bb.getMin().y, bb.getMax().z});
//		mapBBoxes.splitFace(); mapBBoxes.splitFace();

//		// up
//		mapBBoxes.addSegment({bb.getMin().x, bb.getMin().y, bb.getMin().z}, {bb.getMin().x, bb.getMin().y, bb.getMax().z});
//		mapBBoxes.addSegment({bb.getMax().x, bb.getMin().y, bb.getMin().z}, {bb.getMax().x, bb.getMin().y, bb.getMax().z});
//		mapBBoxes.addSegment({bb.getMin().x, bb.getMax().y, bb.getMin().z}, {bb.getMin().x, bb.getMax().y, bb.getMax().z});
//		mapBBoxes.addSegment({bb.getMax().x, bb.getMax().y, bb.getMin().z}, {bb.getMax().x, bb.getMax().y, bb.getMax().z});

	}

	void addBBoxPoly(const BBox3& bb, K::GnuplotColor c) {

		K::GnuplotObjectPolygon* poly = new K::GnuplotObjectPolygon();
		poly->add(K::GnuplotCoordinate3(bb.getMin().x, bb.getMin().y, bb.getMin().z, K::GnuplotCoordinateSystem::FIRST));
		poly->add(K::GnuplotCoordinate3(bb.getMax().x, bb.getMin().y, bb.getMin().z, K::GnuplotCoordinateSystem::FIRST));
		poly->add(K::GnuplotCoordinate3(bb.getMax().x, bb.getMax().y, bb.getMin().z, K::GnuplotCoordinateSystem::FIRST));
		poly->add(K::GnuplotCoordinate3(bb.getMin().x, bb.getMax().y, bb.getMin().z, K::GnuplotCoordinateSystem::FIRST));
		poly->close();
		poly->setStroke(K::GnuplotStroke::NONE());
		poly->setFill(K::GnuplotFill(K::GnuplotFillStyle::SOLID, c));
		splot.getObjects().add(poly);

	}

	void setGroundTruth(const Point3 pos_m) {
		gp << "set arrow 998 from " << pos_m.x << "," << pos_m.y << "," << pos_m.z << " to " << pos_m.x << "," << pos_m.y << "," << pos_m.z+1 << " front \n";
	}
	void setCurEst(const Point3 pos_m) {
		gp << "set arrow 999 from " << pos_m.x << "," << pos_m.y << "," << pos_m.z << " to " << pos_m.x << "," << pos_m.y << "," << pos_m.z+1 << " front \n";
	}


	void setPaletteRedBlue() {

		float max = -9999;
		float min = +9999;
		for (const auto& e : cpoints.get()) {
			if (e.color > max) {max = e.color;}
			if (e.color < min) {min = e.color;}
		}
		setPaletteRedBlue(min, max);

	}

	void setPaletteRedBlue(const float blueVal, const float redVal) {

		// we need to map the range from [blueVal:redVal] to [0:1]
		const float min = blueVal;
		const float max = redVal;
		const float range = (max - min);
		const float center01 = (0-min)/range;

		// values above 0 dB = red
		// values below 0 dB = blue
		gp << "set palette model RGB\n";
		gp << "cen01 = " << center01 << "\n";
		gp << "r(x) = (x < cen01) ? 0 : ((x-cen01) / (1-cen01))\n";
		gp << "g(x) = 0\n";
		gp << "b(x) = (x > cen01) ? 0 : (1 - (x/cen01))\n";
		gp << "set palette model RGB functions r(gray),g(gray),b(gray)\n";
	}

	void addLabel(const std::string& txt, const Point3 pos) {
		//gp << "set label '" << txt << "' at " << pos.x << "," << pos.y << "," << pos.z << "\n";
		splot.getCustom() << "set label '" << txt << "' at " << pos.x << "," << pos.y << "," << pos.z << " front\n";
	}

	void addRectangle(const Point3 p1, const Point3 p2, const Color c, bool front = false, bool fill = true) {
		std::vector<Point3> points = {
			Point3(p1.x, p1.y, p1.z),
			Point3(p2.x, p1.y, p1.z),
			Point3(p2.x, p2.y, p1.z),
			Point3(p1.x, p2.y, p1.z),
			Point3(p1.x, p1.y, p1.z),
		};
		addPolygon(points, c.toHEX(), front, fill);
	}

	void addRectangleW(const Point3 p1, const Point3 p2, const K::GnuplotColor c, const float w, bool front = false) {
		std::vector<Point3> points = {
			Point3(p1.x, p1.y, p1.z),
			Point3(p2.x, p1.y, p1.z),
			Point3(p2.x, p2.y, p1.z),
			Point3(p1.x, p2.y, p1.z),
			Point3(p1.x, p1.y, p1.z),
		};
		K::GnuplotObjectPolygon* poly = new K::GnuplotObjectPolygon();
		poly->getStroke().setWidth(w);
		poly->getStroke().setColor(c);
		poly->setFront(front);
		for (const Point3 p : points) {
			poly->add(K::GnuplotCoordinate3(p.x, p.y, p.z, K::GnuplotCoordinateSystem::FIRST));
		}
		splot.getObjects().add(poly);
	}

	K::GnuplotObjectPolygon* addStartIndicator(const Point3 pt, const std::string& color, const float s = 2) {

//		for (const Point3 p : points) {
//			if (p.z < settings.minZ) {return nullptr;}
//			if (p.z > settings.maxZ) {return nullptr;}
//		}
		K::GnuplotObjectPolygon* poly = new K::GnuplotObjectPolygon();
		poly->setFill(K::GnuplotFill(K::GnuplotFillStyle::SOLID, K::GnuplotColor::fromHexStr(color)));
		poly->setStroke(K::GnuplotStroke(K::GnuplotDashtype::SOLID, 1, K::GnuplotColor::fromRGB(0,0,0)));
		//poly->setStroke(K::GnuplotStroke::NONE());
		poly->add(K::GnuplotCoordinate3(pt.x-s, pt.y-s, pt.z, K::GnuplotCoordinateSystem::FIRST));
		poly->add(K::GnuplotCoordinate3(pt.x+s, pt.y-s, pt.z, K::GnuplotCoordinateSystem::FIRST));
		poly->add(K::GnuplotCoordinate3(pt.x+s, pt.y+s, pt.z, K::GnuplotCoordinateSystem::FIRST));
		poly->add(K::GnuplotCoordinate3(pt.x-s, pt.y+s, pt.z, K::GnuplotCoordinateSystem::FIRST));
		poly->close();
		poly->setFront(true);
		splot.getObjects().add(poly);

		return poly;

	}

	K::GnuplotObjectPolygon* addPolygon(const std::vector<Point3>& points, const std::string& color, bool front = false, bool fill = true, const float alpha = 1) {

		for (const Point3 p : points) {
			if (p.z < settings.minZ) {return nullptr;}
			if (p.z > settings.maxZ) {return nullptr;}
		}

		const K::GnuplotFill pfill =		(fill)	? (K::GnuplotFill(K::GnuplotFillStyle::SOLID, K::GnuplotColor::fromHexStr(color))) : (K::GnuplotFill::NONE());
		const K::GnuplotStroke pstroke =	(!fill)	? (K::GnuplotStroke(K::GnuplotDashtype::SOLID, 1.0, K::GnuplotColor::fromHexStr(color))) : (K::GnuplotStroke::NONE());

		K::GnuplotObjectPolygon* poly = new K::GnuplotObjectPolygon(pfill, pstroke);
		for (const Point3 p : points) {
			poly->add(K::GnuplotCoordinate3(p.x, p.y, p.z, K::GnuplotCoordinateSystem::FIRST));
			poly->setZIndex(p.z);		// manual depth ordering
			poly->getFill().setAlpha(alpha);
		}
		poly->setFront(front);

		splot.getObjects().add(poly);


//		gp << "set object polygon from ";
//		for (size_t i = 0; i < points.size(); ++i) {
//			const Point3 p = points[i];
//			if (i > 0) {gp << " to ";}
//			gp << p.x << "," << p.y << "," << p.z << " ";
//		}
//		gp << (front ? "front" : "");
//		if (fill) {gp << " fs solid ";} else {gp << " fs transparent ";}
//		gp << " fc rgb " << "'" << color << "'";
//		gp << "\n";

		return poly;

	}

	void setZRange(const float min, const float max) {
		gp << "set zrange [" << min << ":" << max << "]\n";
	}


	K::GnuplotObjectPolygon* addFloorRect(const Point3 pos_m, const float size, Color c, float ratio = 1.0) {

		const Point3 p1 = pos_m + Point3(-size, -size/ratio, 0);
		const Point3 p2 = pos_m + Point3(+size, -size/ratio, 0);
		const Point3 p3 = pos_m + Point3(+size, +size/ratio, 0);
		const Point3 p4 = pos_m + Point3(-size, +size/ratio, 0);

		std::vector<Point3> points = {p1,p2,p3,p4,p1};

		return addPolygon(points, c.toHEX(), false, true);

//		gp << "set object polygon from ";
//		for (size_t i = 0; i < points.size(); ++i) {
//			const Point3 p = points[i];
//			if (i > 0) {gp << " to ";}
//			gp << p.x << "," << p.y << "," << p.z << " ";
//		}
//		gp << "front fs solid fc rgb " << "'" << c.toHEX() << "'";
//		gp << "\n";

	}

	void setTitle(const std::string& title) {
		gp << "set title '" << title << "'\n";
	}

	void setGroundTruth(const std::vector<int> indices) {
		const std::vector<Point3> path = FloorplanHelper::getGroundTruth(map, indices);
		pathReal.clear();
		for (const Point3& p : path) {
			pathReal.add(K::GnuplotPoint3(p.x, p.y, p.z));
		}
	}

	void equalXY() {
		gp << "set view equal xy\n";
	}

	void setView(const float degX, const float degY) {
		//gp << "set view " << degX << "," << degY << "\n";
		splot.getView().setCamera(degX, degY);
	}

	void setScale(const float x, const float y, const float ox = 0, const float oy = 0) {
		gp << "set multiplot layout 1,1 scale " << x << "," << y << " offset " << ox << "," << oy << "\n";
	}

	void writeCodeTo(const std::string& file) {
		this->codeFile = file;
	}

	void noFrame() {
		gp << "unset border\n";
//		gp << "unset xtics\n";
//		gp << "unset ytics\n";
//		gp << "unset ztics\n";
		splot.getAxisX().setTicsVisible(false);
		splot.getAxisY().setTicsVisible(false);
		splot.getAxisZ().setTicsVisible(false);
	}

	void writeEpsTex(const std::string file, K::GnuplotSize size = K::GnuplotSize(8.5, 5.1)) {
		gp.setTerminal("epslatex", size);
		gp.setOutput(file);
	}

	void plot() {

		this->mapOutlineConcrete.getStroke().setColor(settings.outlineColor);
		this->mapOutlineDrywall.getStroke().setColor(settings.outlineColor);
		this->mapOutlineGlass.getStroke().setColor(settings.outlineColor);

		gp.draw(splot);
		gp << "unset multiplot\n";	// scaling
		if (codeFile != "") {
			std::ofstream out(codeFile);
			out << gp.getBuffer();
			out.close();
		}
		gp.flush();
	}


	void buildFloorplan() {

		std::vector<Floorplan::Floor*> floors;

		BBox3 bbox = FloorplanHelper::getBBox(map);

		// only some floors??
		if (settings.floors.empty()) {
			floors = map->floors;
		} else {
			for (int i : settings.floors) {
				floors.push_back(map->floors[i]);
			}
		}

//		mapOutlineDrywall.addSegment(
//			K::GnuplotPoint3(bbox.getMin().x, bbox.getMin().y, bbox.getMin().z),
//			K::GnuplotPoint3(bbox.getMax().x, bbox.getMax().y, bbox.getMax().z)
//		);

		splot.getAxisX().setRange(K::GnuplotAxis::Range(bbox.getMin().x, bbox.getMax().x));
		splot.getAxisY().setRange(K::GnuplotAxis::Range(bbox.getMin().y, bbox.getMax().y));
		splot.getAxisZ().setRange(K::GnuplotAxis::Range(0, 11));

		// process each selected floor
		for (Floorplan::Floor* floor : floors) {

			const float vo = floor->atHeight * 4.5;

			// plot the floor's outline
			if (settings.outline) {
				for (Floorplan::FloorOutlinePolygon* poly : floor->outline) {

					if (floor->atHeight < settings.minZ) {continue;}
					if (floor->atHeight > settings.maxZ) {continue;}

					// for toni
					if (settings.skipI1) {
					if (floor->atHeight == 4) {
						//if (poly->poly.points[2].y < 0) {
						if (poly->poly.points[0].x > 70 && poly->poly.points[0].y < 50) {
							continue;
						}
					}
					}

					const float v = 180 + vo;

					K::GnuplotColor color = K::GnuplotColor::fromRGB(v,v,v);
					if (poly->outdoor) {color = K::GnuplotColor::fromRGB(180, 240, 180);}
					//if (poly->method == Floorplan::OutlineMethod::REMOVE) {color = K::GnuplotColor::fromRGB(245,245,245);}
					K::GnuplotFill filler(K::GnuplotFillStyle::SOLID, color);
					K::GnuplotObjectPolygon* gpol = new K::GnuplotObjectPolygon(filler, K::GnuplotStroke::NONE());
					for (Point2 pt : poly->poly.points) {
						K::GnuplotCoordinate3 coord(pt.x, pt.y, floor->atHeight, K::GnuplotCoordinateSystem::FIRST);
						gpol->add(coord);
					}
					gpol->close();
					gpol->setZIndex(floor->atHeight-0.1);	// below the lines
					//gpol->setFront(true);
					splot.getObjects().add(gpol);

				}
			}

			// plot obstacles?
			if (settings.obstacles) {
				for (Floorplan::FloorObstacle* obs : floor->obstacles) {
					Floorplan::FloorObstacleLine* line = dynamic_cast<Floorplan::FloorObstacleLine*>(obs);
					if (line) {

						if (floor->atHeight < settings.minZ) {continue;}
						if (floor->atHeight > settings.maxZ) {continue;}

//						const K::GnuplotPoint3 p1(line->from.x, line->from.y, floor->atHeight);
//						const K::GnuplotPoint3 p2(line->to.x, line->to.y, floor->atHeight);
//						switch(line->material) {
//							case Floorplan::Material::CONCRETE:		mapOutlineConcrete.addSegment(p1, p2); break;
//							case Floorplan::Material::GLASS:		mapOutlineGlass.addSegment(p1, p2); break;
//							case Floorplan::Material::UNKNOWN:
//							case Floorplan::Material::DRYWALL:		mapOutlineDrywall.addSegment(p1, p2); break;
//						}

//						K::GnuplotObjectArrow* arrow = new K::GnuplotObjectArrow(
//							K::GnuplotCoordinate3(line->from.x, line->from.y, floor->atHeight, K::GnuplotCoordinateSystem::FIRST),
//							K::GnuplotCoordinate3(line->to.x, line->to.y, floor->atHeight, K::GnuplotCoordinateSystem::FIRST)
//						);
//						arrow->setHead(K::GnuplotObjectArrow::Head::NONE);
//						splot.getObjects().add(arrow);

						const float v = 140 + vo;

						// drawing outlines as polygon is a hack for correct depth-order in gnuplot
						K::GnuplotColor color = (settings.outlineColorCustom) ? (settings.outlineColor) : (K::GnuplotColor::fromRGB(v,v,v));
						K::GnuplotFill filler = K::GnuplotFill(K::GnuplotFillStyle::EMPTY_BORDER, color);
						K::GnuplotStroke stroke(K::GnuplotDashtype::NONE, 1, color);
						//K::GnuplotObjectPolygon* gpol = new K::GnuplotObjectPolygon(K::GnuplotFill::NONE(), stroke);
						K::GnuplotObjectPolygon* gpol = new K::GnuplotObjectPolygon(filler, stroke);
						//K::GnuplotObjectPolygon* gpol = new K::GnuplotObjectPolygon(K::GnuplotFill::NONE(), K::GnuplotStroke::NONE());

						gpol->add(K::GnuplotCoordinate3(line->from.x, line->from.y, floor->atHeight, K::GnuplotCoordinateSystem::FIRST));
						gpol->add(K::GnuplotCoordinate3(line->to.x, line->to.y, floor->atHeight, K::GnuplotCoordinateSystem::FIRST));
						gpol->close();
						gpol->setZIndex(floor->atHeight);	// above the ground polygon
						//gpol->setFront(true);
						splot.getObjects().add(gpol);

					}
				}
			}

			// plot the stairs as polygon
			if (settings.stairs) {
				for (Floorplan::Stair* s : floor->stairs) {
					std::vector<Floorplan::Quad3> quads = Floorplan::getQuads(s->getParts(), floor);
					for (const Floorplan::Quad3& q : quads) {
//						K::GnuplotObjectPolygon* poly = addPolygon({q.p1, q.p2, q.p3, q.p4, q.p1}, "#c0c0c0");
//						if (poly) {
//							poly->setZIndex(floor->atHeight+1.5);	// above the floor
//						}

						const float v1 = 180 + q.p1.z * 4.5;
						const float v2 = 140 + q.p1.z * 4.5;

						const float z = (q.p1.z + q.p2.z + q.p3.z + q.p4.z) / 4.0f;

						if (z < settings.minZ) {continue;}
						if (z > settings.maxZ) {continue;}

						K::GnuplotColor color = K::GnuplotColor::fromRGB(v1,v1,v1);
						K::GnuplotColor color2 = K::GnuplotColor::fromRGB(v2,v2,v2);
						K::GnuplotFill filler(K::GnuplotFillStyle::SOLID, color);
						K::GnuplotStroke stroke(K::GnuplotDashtype::SOLID, 1, color2);
						K::GnuplotObjectPolygon* gpol = new K::GnuplotObjectPolygon(filler, stroke);
						gpol->add(K::GnuplotCoordinate3(q.p1.x, q.p1.y, q.p1.z, K::GnuplotCoordinateSystem::FIRST));
						gpol->add(K::GnuplotCoordinate3(q.p2.x, q.p2.y, q.p2.z, K::GnuplotCoordinateSystem::FIRST));
						gpol->add(K::GnuplotCoordinate3(q.p3.x, q.p3.y, q.p3.z, K::GnuplotCoordinateSystem::FIRST));
						gpol->add(K::GnuplotCoordinate3(q.p4.x, q.p4.y, q.p4.z, K::GnuplotCoordinateSystem::FIRST));
						gpol->close();
						gpol->setZIndex(z);	// above the ground
						splot.getObjects().add(gpol);

					}
				}
			}

		}

	}

};

#endif // PLOTTY_H