Ejemplo n.º 1
0
void DL_Jww::CreateEnko(DL_CreationInterface* creationInterface, CDataEnko& DEnko)
{
	string lName = HEX[DEnko.m_nGLayer > ArraySize(HEX)-1 ? ArraySize(HEX)-1: DEnko.m_nGLayer] + "-" +
													HEX[DEnko.m_nLayer > ArraySize(HEX)-1 ? ArraySize(HEX)-1: DEnko.m_nLayer];

	// add layer
	creationInterface->addLayer(DL_LayerData(lName,0));

	int width;
	if(DEnko.m_nPenWidth > 26)
		width = 0;
	else
		width = DEnko.m_nPenWidth;
	int color = colTable[DEnko.m_nPenColor > ArraySize(colTable)-1 ? ArraySize(colTable)-1 : DEnko.m_nPenColor];
	attrib = DL_Attributes(values[8],	  // layer
			       color,	      // color
			       width,	      // width
			       lTable[DEnko.m_nPenStyle > ArraySize(lTable)-1 ? ArraySize(lTable)-1 : DEnko.m_nPenStyle]);	  // linetype
	creationInterface->setAttributes(attrib);

	creationInterface->setExtrusion(0.0, 0.0, 1.0, 0.0 );

	double angle1, angle2;
	//正円
	if(DEnko.m_bZenEnFlg){
		if(DEnko.m_dHenpeiRitsu == 1.0){
			DL_CircleData d(DEnko.m_start.x, DEnko.m_start.y, 0.0, DEnko.m_dHankei);
			creationInterface->addCircle(d);
		}else{
			double angle1, angle2;
			if(DEnko.m_radEnkoKaku > 0.0){
				angle1 = DEnko.m_radKaishiKaku;
				angle2 = DEnko.m_radKaishiKaku + DEnko.m_radEnkoKaku;
			}else{
				angle1 = DEnko.m_radKaishiKaku + DEnko.m_radEnkoKaku;
				angle2 = DEnko.m_radKaishiKaku;
			}
			angle1 = angle1 - floor(angle1 / (M_PI * 2.0)) * M_PI * 2.0;
			angle2 = angle2 - floor(angle2 / (M_PI * 2.0)) * M_PI * 2.0;
			if( angle2 <= angle1 )
				angle1 = angle1 - M_PI * 2.0;
			//楕円
			DL_EllipseData d(DEnko.m_start.x, DEnko.m_start.y, 0.0,
							DEnko.m_dHankei * cos(DEnko.m_radKatamukiKaku), DEnko.m_dHankei * sin(DEnko.m_radKatamukiKaku), 0.0,
							DEnko.m_dHenpeiRitsu,
							angle1, angle2);

			creationInterface->addEllipse(d);
		}
	}else{
		if(DEnko.m_dHenpeiRitsu == 1.0){
			//円弧
			if(DEnko.m_radEnkoKaku > 0.0){
				angle1 = DEnko.m_radKaishiKaku + DEnko.m_radKatamukiKaku;
				angle2 = DEnko.m_radKaishiKaku + DEnko.m_radKatamukiKaku + DEnko.m_radEnkoKaku;
			}else{
				angle1 = DEnko.m_radKaishiKaku + DEnko.m_radKatamukiKaku + DEnko.m_radEnkoKaku;
				angle2 = DEnko.m_radKaishiKaku + DEnko.m_radKatamukiKaku;
			}
			angle1 = angle1 - floor(angle1 / (M_PI * 2.0)) * M_PI * 2.0;
			angle2 = angle2 - floor(angle2 / (M_PI * 2.0)) * M_PI * 2.0;
			if( angle2 <= angle1 )
				angle1 = angle1 - M_PI * 2.0;
			DL_ArcData d(DEnko.m_start.x, DEnko.m_start.y, 0.0,
					DEnko.m_dHankei,
					Deg(angle1),
					Deg(angle2));

			creationInterface->addArc(d);
		}else{
			double angle1, angle2;
			if(DEnko.m_radEnkoKaku > 0.0){
				angle1 = DEnko.m_radKaishiKaku;
				angle2 = DEnko.m_radKaishiKaku + DEnko.m_radEnkoKaku;
			}else{
				angle1 = DEnko.m_radKaishiKaku + DEnko.m_radEnkoKaku;
				angle2 = DEnko.m_radKaishiKaku;
			}
			angle1 = angle1 - floor(angle1 / (M_PI * 2.0)) * M_PI * 2.0;
			angle2 = angle2 - floor(angle2 / (M_PI * 2.0)) * M_PI * 2.0;
			if( angle2 <= angle1 )
				angle1 = angle1 - M_PI * 2.0;
			//楕円
			DL_EllipseData d(DEnko.m_start.x, DEnko.m_start.y, 0.0,
							DEnko.m_dHankei * cos(DEnko.m_radKatamukiKaku), DEnko.m_dHankei * sin(DEnko.m_radKatamukiKaku), 0.0,
							DEnko.m_dHenpeiRitsu,
							angle1, angle2);

			creationInterface->addEllipse(d);
		}
	}
#ifdef FINISHED
	RS_CircleData data1(RS_Vector(0.0, 0.0), 0.0);
	RS_Circle* circle;
	RS_ArcData arc_data(RS_Vector(0.0, 0.0), 0.0, 0.0, 0.0, false);
	RS_Arc* arc;
	RS_Ellipse* elps;
	//正円
	if(DEnko.m_bZenEnFlg){
		if(DEnko.m_dHenpeiRitsu == 1.0){
			data1.center = RS_Vector(DEnko.m_start.x, DEnko.m_start.y);
			data1.radius = DEnko.m_dHankei;
			circle = new RS_Circle(graphic, data1);
			RS2::LineType ltype = lTable[DEnko.m_nPenStyle];
			RS_Color col = colTable[DEnko.m_nPenColor];
			RS2::LineWidth lw = lWidth[DEnko.m_nPenWidth > 26 ? 0 : DEnko.m_nPenWidth];//RS2::Width12
			circle->setPen(RS_Pen(col, lw, ltype));

			RS_String lName = HEX[DEnko.m_nGLayer > 0x0f ? 0:DEnko.m_nGLayer] + "-" +
				HEX[DEnko.m_nLayer > 0x0f ? 0: DEnko.m_nLayer];
			if( graphic->findLayer(lName) == (RS_Layer*)NULL ){
#ifdef DEBUG
std::cout << lName.ascii() << std::endl;
#endif
				RS_Layer* layer = new RS_Layer(lName);
				graphic->addLayer(layer);
			}
			circle->setLayer(lName);
			// add the line to the graphic
			graphic->addEntity(circle);
#ifdef DEBUG
std::cout << *circle;
#endif
		}else{
			//楕円
			double angle1, angle2;
			if(DEnko.m_radEnkoKaku > 0.0){
				angle1 = DEnko.m_radKaishiKaku;
				angle2 = DEnko.m_radKaishiKaku + DEnko.m_radEnkoKaku;
			}else{
				angle1 = DEnko.m_radKaishiKaku + DEnko.m_radEnkoKaku;
				angle2 = DEnko.m_radKaishiKaku;
			}
			angle1 = angle1 - floor(angle1 / (M_PI * 2.0)) * M_PI * 2.0;
			angle2 = angle2 - floor(angle2 / (M_PI * 2.0)) * M_PI * 2.0;
			if( angle2 <= angle1 )
				angle1 = angle1 - M_PI * 2.0;
			RS_EllipseData elps_data(RS_Vector(DEnko.m_start.x, DEnko.m_start.y),
									RS_Vector(DEnko.m_dHankei * cos(DEnko.m_radKatamukiKaku), DEnko.m_dHankei * sin(DEnko.m_radKatamukiKaku)),
									DEnko.m_dHenpeiRitsu,
									angle1, angle2, false);
			elps = new RS_Ellipse(graphic, elps_data);
			RS2::LineType ltype = lTable[DEnko.m_nPenStyle];
			RS_Color col = colTable[DEnko.m_nPenColor];
			RS2::LineWidth lw = lWidth[DEnko.m_nPenWidth > 26 ? 0 : DEnko.m_nPenWidth];//RS2::Width12
			elps->setPen(RS_Pen(col, lw, ltype));

			RS_String lName = HEX[DEnko.m_nGLayer > 0x0f ? 0:DEnko.m_nGLayer] + "-" +
				HEX[DEnko.m_nLayer > 0x0f ? 0: DEnko.m_nLayer];
			if( graphic->findLayer(lName) == (RS_Layer*)NULL ){
				RS_Layer* layer = new RS_Layer(lName);
				graphic->addLayer(layer);
			}
			elps->setLayer(lName);
			// add the line to the graphic
			graphic->addEntity(elps);
		}
	}else{
		//円弧
		arc_data.center = RS_Vector(DEnko.m_start.x, DEnko.m_start.y);
		arc_data.radius = DEnko.m_dHankei;
		if(DEnko.m_radEnkoKaku > 0.0){
			arc_data.angle1 = DEnko.m_radKaishiKaku + DEnko.m_radKatamukiKaku;
			arc_data.angle2 = DEnko.m_radKaishiKaku + DEnko.m_radKatamukiKaku + DEnko.m_radEnkoKaku;
		}else{
			arc_data.angle1 = DEnko.m_radKaishiKaku + DEnko.m_radKatamukiKaku + DEnko.m_radEnkoKaku;
			arc_data.angle2 = DEnko.m_radKaishiKaku + DEnko.m_radKatamukiKaku;
		}
		if( arc_data.angle2 <= arc_data.angle1 )
			arc_data.angle1 = arc_data.angle1 - M_PI * 2.0;
		arc_data.angle1 = Deg(arc_data.angle1);
		arc_data.angle2 = Deg(arc_data.angle2);
		arc_data.reversed = false;
		arc = new RS_Arc(graphic, arc_data);
		RS2::LineType ltype = lTable[DEnko.m_nPenStyle];
		RS_Color col = colTable[DEnko.m_nPenColor];
		RS2::LineWidth lw = lWidth[DEnko.m_nPenWidth > 26 ? 0 : DEnko.m_nPenWidth];//RS2::Width12
		arc->setPen(RS_Pen(col, lw, ltype));

		RS_String lName = HEX[DEnko.m_nGLayer > 0x0f ? 0:DEnko.m_nGLayer] + "-" +
			HEX[DEnko.m_nLayer > 0x0f ? 0: DEnko.m_nLayer];
		if( graphic->findLayer(lName) == (RS_Layer*)NULL ){
#ifdef DEBUG
std::cout << lName.ascii() << std::endl;
#endif
			RS_Layer* layer = new RS_Layer(lName);
			graphic->addLayer(layer);
		}
		arc->setLayer(lName);
		// add the line to the graphic
		graphic->addEntity(arc);
	}
#endif
}
Ejemplo n.º 2
0
/**
 * Testing function.
 */
void LC_SimpleTests::slotTestInsertEllipse() {
	RS_DEBUG->print("%s\n: begin\n", __func__);
	auto appWin=QC_ApplicationWindow::getAppWindow();

	RS_Document* d = appWin->getDocument();
	if (d) {
		RS_Graphic* graphic = (RS_Graphic*)d;
		if (!graphic) {
			return;
		}

		RS_Ellipse* ellipse;
		RS_Line* line;

		for (double a=0.; a<2.*M_PI; a+=0.1) {
			RS_Vector v = RS_Vector::polar(50., a);
			double xp = 1000.*a;

			ellipse = new RS_Ellipse(graphic,
			{xp,0.}, v,
									 0.5,
									 0., 2.*M_PI,
									 false);

			ellipse->setPen(RS_Pen(RS_Color(255, 0, 255),
								   RS2::Width01,
								   RS2::SolidLine));

			graphic->addEntity(ellipse);
			//graphic->addEntity(new RS_Point(graphic, ellipse->getMax()));
			//graphic->addEntity(new RS_Point(graphic, ellipse->getMin()));

			line = new RS_Line{graphic, {xp, 0.}, RS_Vector{xp, 0.}+v};
			line->setPen(RS_Pen(RS_Color(128, 128, 128),
								RS2::Width01,
								RS2::SolidLine));
			graphic->addEntity(line);


			/*
					 for (double mx=-60.0; mx<60.0; mx+=1.0) {
						 //for (double mx=0.0; mx<1.0; mx+=2.5) {
						 RS_VectorSolutions sol = ellipse->mapX(xp + mx);
						 //graphic->addEntity(new RS_Point(graphic,
						 //                   sol.vector2 + RS_Vector(a*500.0, 0.0)));
						 //graphic->addEntity(new RS_Point(graphic,
						 //                   sol.vector3 + RS_Vector(a*500.0, 0.0)));
						 //graphic->addEntity(new RS_Point(graphic,
						 //                   sol.vector4 + RS_Vector(a*500.0, 0.0)));

						 line = new RS_Line(graphic,
											RS_LineData(RS_Vector(xp+mx,-50.0),
														RS_Vector(xp+mx,50.0)));
						 line->setPen(RS_Pen(RS_Color(60, 60, 60),
											 RS2::Width01,
											 RS2::SolidLine));
						 graphic->addEntity(line);

						 graphic->addEntity(new RS_Point(graphic,
														 sol.get(0)));
					 }
			*/
		}


		// different minor/minor relations
		/*
			  double x, y;
			  for (y=-250.0; y<=250.0; y+=50.0) {
				  for (x=-250.0; x<=250.0; x+=50.0) {
					  RS_Vector v(x, y);

					  ellipse = new RS_Ellipse(graphic,
											   v,
											   RS_Vector((x/5+50.0)/2.0, 0.0),
										 fabs(x/y),
											   0.0, 2*M_PI,
											   false);

				ellipse->setPen(RS_Pen(RS_Color(255, 255, 0),
									   RS2::Width01,
									   RS2::DashDotLine));

					  graphic->addEntity(ellipse);
					  graphic->addEntity(new RS_Point(graphic, ellipse->getMax()));
					  graphic->addEntity(new RS_Point(graphic, ellipse->getMin()));

				ellipse = new RS_Ellipse(graphic,
											   v + RS_Vector(750.0, 0.0),
											   RS_Vector((x/5+50.0)/2.0, 0.0),
											   fabs(x/y),
											   2*M_PI, 0.0,
											   true);

					  graphic->addEntity(ellipse);
					  graphic->addEntity(new RS_Point(graphic, ellipse->getMax()));
					  graphic->addEntity(new RS_Point(graphic, ellipse->getMin()));
				  }
			  }
		*/

		/*
			  // different rotation angles:
			  double rot;
			  for (rot=0.0; rot<=2*M_PI+0.1; rot+=(M_PI/8)) {
				  ellipse = new RS_Ellipse(graphic,
										   RS_Vector(rot*200, 500.0),
										   RS_Vector(50.0, 0.0).rotate(rot),
										   0.3,
										   0.0, 2*M_PI,
										   false);
				  graphic->addEntity(ellipse);
				  graphic->addEntity(new RS_Point(graphic, ellipse->getMax()));
				  graphic->addEntity(new RS_Point(graphic, ellipse->getMin()));
			  }


			  // different arc angles:
			  double a1, a2;
			  for (rot=0.0; rot<=2*M_PI+0.1; rot+=(M_PI/8)) {
				  for (a1=0.0; a1<=2*M_PI+0.1; a1+=(M_PI/8)) {
					  for (a2=a1+M_PI/8; a2<=2*M_PI+a1+0.1; a2+=(M_PI/8)) {
						  ellipse = new RS_Ellipse(graphic,
												   RS_Vector(-500.0-a1*200.0-5000.0*rot,
															 500.0-a2*200.0),
												   RS_Vector(50.0, 0.0).rotate(rot),
												   0.3,
												   a1, a2,
												   false);
						  graphic->addEntity(ellipse);
						  graphic->addEntity(new RS_Point(graphic, ellipse->getMax()));
						  graphic->addEntity(new RS_Point(graphic, ellipse->getMin()));
					  }
				  }
			  }
		*/

		RS_GraphicView* v = appWin->getGraphicView();
		if (v) {
			v->redraw();
		}
	}
	RS_DEBUG->print("%s\n: end\n", __func__);
}