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 }
/** * Testing function. */ void LC_SimpleTests::slotTestInsertBlock() { RS_DEBUG->print("%s\n: begin\n", __func__); auto appWin=QC_ApplicationWindow::getAppWindow(); RS_Document* d = appWin->getDocument(); if (d && d->rtti()==RS2::EntityGraphic) { RS_Graphic* graphic = (RS_Graphic*)d; if (graphic==NULL) { return; } graphic->addLayer(new RS_Layer("default")); RS_Block* block = new RS_Block(graphic, RS_BlockData("debugblock", RS_Vector(0.0,0.0), true)); RS_Line* line; RS_Arc* arc; RS_Circle* circle; // Add one red line: line = new RS_Line{block, {0.,0.}, {50.,0.}}; line->setLayerToActive(); line->setPen(RS_Pen(RS_Color(255, 0, 0), RS2::Width01, RS2::SolidLine)); block->addEntity(line); // Add one line with attributes from block: line = new RS_Line{block, {50.,0.}, {50.,50.}}; line->setPen(RS_Pen(RS_Color(RS2::FlagByBlock), RS2::WidthByBlock, RS2::LineByBlock)); block->addEntity(line); // Add one arc with attributes from block: RS_ArcData d({50.,0.}, 50.0, M_PI_2, M_PI, false); arc = new RS_Arc(block, d); arc->setPen(RS_Pen(RS_Color(RS2::FlagByBlock), RS2::WidthByBlock, RS2::LineByBlock)); block->addEntity(arc); // Add one blue circle: RS_CircleData circleData(RS_Vector(20.0,15.0), 12.5); circle = new RS_Circle(block, circleData); circle->setLayerToActive(); circle->setPen(RS_Pen(RS_Color(0, 0, 255), RS2::Width01, RS2::SolidLine)); block->addEntity(circle); graphic->addBlock(block); RS_Insert* ins; RS_InsertData insData("debugblock", RS_Vector(0.0,0.0), RS_Vector(1.0,1.0), 0.0, 1, 1, RS_Vector(0.0, 0.0), NULL, RS2::NoUpdate); // insert one magenta instance of the block (original): ins = new RS_Insert(graphic, insData); ins->setLayerToActive(); ins->setPen(RS_Pen(RS_Color(255, 0, 255), RS2::Width02, RS2::SolidLine)); ins->update(); graphic->addEntity(ins); // insert one green instance of the block (rotate): insData = RS_InsertData("debugblock", RS_Vector(-50.0,20.0), RS_Vector(1.0,1.0), M_PI/6., 1, 1, RS_Vector(0.0, 0.0), NULL, RS2::NoUpdate); ins = new RS_Insert(graphic, insData); ins->setLayerToActive(); ins->setPen(RS_Pen(RS_Color(0, 255, 0), RS2::Width02, RS2::SolidLine)); ins->update(); graphic->addEntity(ins); // insert one cyan instance of the block (move): insData = RS_InsertData("debugblock", RS_Vector(10.0,20.0), RS_Vector(1.0,1.0), 0.0, 1, 1, RS_Vector(0.0, 0.0), NULL, RS2::NoUpdate); ins = new RS_Insert(graphic, insData); ins->setLayerToActive(); ins->setPen(RS_Pen(RS_Color(0, 255, 255), RS2::Width02, RS2::SolidLine)); ins->update(); graphic->addEntity(ins); // insert one blue instance of the block: for (double a=0.0; a<360.0; a+=45.0) { insData = RS_InsertData("debugblock", RS_Vector(60.0,0.0), RS_Vector(2.0/5,2.0/5), RS_Math::deg2rad(a), 1, 1, RS_Vector(0.0, 0.0), NULL, RS2::NoUpdate); ins = new RS_Insert(graphic, insData); ins->setLayerToActive(); ins->setPen(RS_Pen(RS_Color(0, 0, 255), RS2::Width05, RS2::SolidLine)); ins->update(); graphic->addEntity(ins); } // insert an array of yellow instances of the block: insData = RS_InsertData("debugblock", RS_Vector(-100.0,-100.0), RS_Vector(0.2,0.2), M_PI/6.0, 6, 4, RS_Vector(100.0, 100.0), NULL, RS2::NoUpdate); ins = new RS_Insert(graphic, insData); ins->setLayerToActive(); ins->setPen(RS_Pen(RS_Color(255, 255, 0), RS2::Width01, RS2::SolidLine)); ins->update(); graphic->addEntity(ins); RS_GraphicView* v = appWin->getGraphicView(); if (v) { v->redraw(); } } RS_DEBUG->print("%s\n: end\n", __func__); }