/** * Implementation of update. Updates the arrow. */ void RS_Leader::update() { // find and delete arrow: for(auto e: entities){ if (e->rtti()==RS2::EntitySolid) { removeEntity(e); break; } } if (isUndone()) { return; } RS_Entity* fe = firstEntity(); if (fe && fe->isAtomic()) { RS_Vector p1 = ((RS_AtomicEntity*)fe)->getStartpoint(); RS_Vector p2 = ((RS_AtomicEntity*)fe)->getEndpoint(); // first entity must be the line which gets the arrow: if (hasArrowHead()) { RS_Solid* s = new RS_Solid(this, RS_SolidData()); s->shapeArrow(p1, p2.angleTo(p1), getGraphicVariableDouble("$DIMASZ", 2.5)* getGraphicVariableDouble("$DIMSCALE", 1.0)); s->setPen(RS_Pen(RS2::FlagInvalid)); s->setLayer(nullptr); RS_EntityContainer::addEntity(s); } } calculateBorders(); }
/** * Implementation of update. Updates the arrow. */ void RS_Leader::update() { // find and delete arrow: for (RS_Entity* e=firstEntity(); e!=NULL; e=nextEntity()) { if (e->rtti()==RS2::EntitySolid) { removeEntity(e); break; } } if (isUndone()) { setVisible(false); return; } RS_Entity* fe = firstEntity(); if (fe!=NULL && fe->isAtomic()) { RS_Vector p1 = ((RS_AtomicEntity*)fe)->getStartpoint(); RS_Vector p2 = ((RS_AtomicEntity*)fe)->getEndpoint(); // first entity must be the line which gets the arrow: if (hasArrowHead()) { RS_Solid* s = new RS_Solid(this, RS_SolidData()); s->shapeArrow(p1, p2.angleTo(p1), getGraphicVariableDouble("$DIMASZ", 2.5)); s->setPen(RS_Pen(RS2::FlagInvalid)); s->setLayer(NULL); RS_EntityContainer::addEntity(s); } } }
/** * Creates a dimensioning line (line with one, two or no arrows and a text). * * @param forceAutoText Automatically reposition the text label. */ void RS_Dimension::updateCreateDimensionLine(const RS_Vector& p1, const RS_Vector& p2, bool arrow1, bool arrow2, bool forceAutoText) { // general scale (DIMSCALE) double dimscale = getGeneralScale(); // text height (DIMTXT) double dimtxt = getTextHeight()*dimscale; // text distance to line (DIMGAP) double dimgap = getDimensionLineGap()*dimscale; // length of dimension line: double distance = p1.distanceTo(p2); // arrow size: double arrowSize = getArrowSize()*dimscale; // do we have to put the arrows outside of the line? bool outsideArrows = (distance<arrowSize*2.5); // arrow angles: double arrowAngle1, arrowAngle2; // Create dimension line: RS_Line* dimensionLine = new RS_Line(this, RS_LineData(p1, p2)); dimensionLine->setPen(RS_Pen(RS2::FlagInvalid)); dimensionLine->setLayer(NULL); addEntity(dimensionLine); if (outsideArrows==false) { arrowAngle1 = dimensionLine->getAngle2(); arrowAngle2 = dimensionLine->getAngle1(); } else { arrowAngle1 = dimensionLine->getAngle1(); arrowAngle2 = dimensionLine->getAngle2(); // extend dimension line outside arrows RS_Vector dir; dir.setPolar(arrowSize*2, arrowAngle2); dimensionLine->setStartpoint(p1 + dir); dimensionLine->setEndpoint(p2 - dir); } double dimtsz=getTickSize()*dimscale; if(dimtsz < 0.01) { //display arrow // Arrows: RS_SolidData sd; RS_Solid* arrow; if (arrow1) { // arrow 1 arrow = new RS_Solid(this, sd); arrow->shapeArrow(p1, arrowAngle1, arrowSize); arrow->setPen(RS_Pen(RS2::FlagInvalid)); arrow->setLayer(NULL); addEntity(arrow); } if (arrow2) { // arrow 2: arrow = new RS_Solid(this, sd); arrow->shapeArrow(p2, arrowAngle2, arrowSize); arrow->setPen(RS_Pen(RS2::FlagInvalid)); arrow->setLayer(NULL); addEntity(arrow); } }else{ //display ticks // Arrows: RS_Line* tick; RS_Vector tickVector; tickVector.setPolar(dimtsz,arrowAngle1 + M_PI*0.25); //tick is 45 degree away if (arrow1) { // tick 1 tick = new RS_Line(this, p1-tickVector, p1+tickVector); tick->setPen(RS_Pen(RS2::FlagInvalid)); tick->setLayer(NULL); addEntity(tick); } if (arrow2) { // tick 2: tick = new RS_Line(this, p2-tickVector, p2+tickVector); tick->setPen(RS_Pen(RS2::FlagInvalid)); tick->setLayer(NULL); addEntity(tick); } } // Text label: RS_MTextData textData; RS_Vector textPos; double dimAngle1 = dimensionLine->getAngle1(); double textAngle; bool corrected=false; if (getAlignText()) textAngle =0.0; else textAngle = RS_Math::makeAngleReadable(dimAngle1, true, &corrected); if (data.middleOfText.valid && !forceAutoText) { textPos = data.middleOfText; } else { textPos = dimensionLine->getMiddlePoint(); if (!getAlignText()) { RS_Vector distV; // rotate text so it's readable from the bottom or right (ISO) // quadrant 1 & 4 if (corrected) { distV.setPolar(dimgap + dimtxt/2.0, dimAngle1-M_PI/2.0); } else { distV.setPolar(dimgap + dimtxt/2.0, dimAngle1+M_PI/2.0); } // move text away from dimension line: textPos+=distV; } //// the next update should still be able to adjust this //// auto text position. leave it invalid data.middleOfText = textPos; } textData = RS_MTextData(textPos, dimtxt, 30.0, RS_MTextData::VAMiddle, RS_MTextData::HACenter, RS_MTextData::LeftToRight, RS_MTextData::Exact, 1.0, getLabel(), "standard", textAngle); RS_MText* text = new RS_MText(this, textData); // move text to the side: RS_Vector distH; if (text->getUsedTextWidth()>distance) { distH.setPolar(text->getUsedTextWidth()/2.0 +distance/2.0+dimgap, textAngle); text->move(distH); } text->setPen(RS_Pen(RS2::FlagInvalid)); text->setLayer(NULL); //horizontal text, split dimensionLine if (getAlignText()) { double w =text->getUsedTextWidth()/2+dimgap; double h = text->getUsedTextHeight()/2+dimgap; RS_Vector v1 = textPos - RS_Vector(w, h); RS_Vector v2 = textPos + RS_Vector(w, h); RS_Line l[] = { RS_Line(NULL, RS_LineData(v1, RS_Vector(v2.x, v1.y))), RS_Line(NULL, RS_LineData(RS_Vector(v2.x, v1.y), v2)), RS_Line(NULL, RS_LineData(v2, RS_Vector(v1.x, v2.y))), RS_Line(NULL, RS_LineData(RS_Vector(v1.x, v2.y), v1)) }; RS_VectorSolutions sol1, sol2; int inters= 0; do { sol1 = RS_Information::getIntersection(dimensionLine, &(l[inters++]), true); } while (!sol1.hasValid() && inters < 4); if (!sol1.hasValid()) { do { sol2 = RS_Information::getIntersection(dimensionLine, &(l[inters++]), true); } while (!sol2.hasValid() && inters < 4); } //are text intersecting dimensionLine? if (sol1.hasValid() && sol2.hasValid()) { //yes, split dimension line RS_Line* dimensionLine2 = (RS_Line*)dimensionLine->clone(); v1 = sol1.get(0); v2 = sol2.get(0); if (p1.distanceTo(v1) < p1.distanceTo(v2)) { dimensionLine->setEndpoint(v1); dimensionLine2->setStartpoint(v2); } else { dimensionLine->setEndpoint(v2); dimensionLine2->setStartpoint(v1); } addEntity(dimensionLine2); } } addEntity(text); }
/** * Updates the sub entities of this dimension. Called when the * dimension or the position, alignment, .. changes. * * @param autoText Automatically reposition the text label */ void RS_DimAngular::update(bool /*autoText*/) { RS_DEBUG->print("RS_DimAngular::update"); clear(); if (isUndone()) { return; } // distance from entities (DIMEXO) double dimexo = getExtensionLineOffset(); // extension line extension (DIMEXE) double dimexe = getExtensionLineExtension(); // text height (DIMTXT) double dimtxt = getTextHeight(); // text distance to line (DIMGAP) double dimgap = getDimensionLineGap(); // find out center: RS_Vector center = getCenter(); if (!center.valid) { return; } double ang1 = 0.0; double ang2 = 0.0; bool reversed = false; RS_Vector p1; RS_Vector p2; getAngles(ang1, ang2, reversed, p1, p2); double rad = edata.definitionPoint4.distanceTo(center); RS_Line* line; RS_Vector dir; double len; double dist; // 1st extension line: dist = center.distanceTo(p1); len = rad - dist + dimexe; dir.setPolar(1.0, ang1); line = new RS_Line(this, RS_LineData(center + dir*dist + dir*dimexo, center + dir*dist + dir*len)); line->setPen(RS_Pen(RS2::FlagInvalid)); line->setLayer(NULL); addEntity(line); // 2nd extension line: dist = center.distanceTo(p2); len = rad - dist + dimexe; dir.setPolar(1.0, ang2); line = new RS_Line(this, RS_LineData(center + dir*dist + dir*dimexo, center + dir*dist + dir*len)); line->setPen(RS_Pen(RS2::FlagInvalid)); line->setLayer(NULL); addEntity(line); // Create dimension line (arc): RS_Arc* arc = new RS_Arc(this, RS_ArcData(center, rad, ang1, ang2, reversed)); arc->setPen(RS_Pen(RS2::FlagInvalid)); arc->setLayer(NULL); addEntity(arc); // length of dimension arc: double distance = arc->getLength(); // do we have to put the arrows outside of the arc? bool outsideArrows = (distance<getArrowSize()*2); // arrow angles: double arrowAngle1, arrowAngle2; double arrowAng; if (rad>1.0e-6) { arrowAng = getArrowSize() / rad; } else { arrowAng = 0.0; } RS_Vector v1, v2; if (!arc->isReversed()) { v1.setPolar(rad, arc->getAngle1()+arrowAng); } else { v1.setPolar(rad, arc->getAngle1()-arrowAng); } v1+=arc->getCenter(); arrowAngle1 = arc->getStartpoint().angleTo(v1); if (!arc->isReversed()) { v2.setPolar(rad, arc->getAngle2()-arrowAng); } else { v2.setPolar(rad, arc->getAngle2()+arrowAng); } v2+=arc->getCenter(); arrowAngle2 = arc->getEndpoint().angleTo(v2); if (!outsideArrows) { arrowAngle1 = arrowAngle1+M_PI; arrowAngle2 = arrowAngle2+M_PI; } // Arrows: RS_SolidData sd; RS_Solid* arrow; // arrow 1 arrow = new RS_Solid(this, sd); arrow->shapeArrow(arc->getStartpoint(), arrowAngle1, getArrowSize()); arrow->setPen(RS_Pen(RS2::FlagInvalid)); arrow->setLayer(NULL); addEntity(arrow); // arrow 2: arrow = new RS_Solid(this, sd); arrow->shapeArrow(arc->getEndpoint(), arrowAngle2, getArrowSize()); arrow->setPen(RS_Pen(RS2::FlagInvalid)); arrow->setLayer(NULL); addEntity(arrow); // text label: RS_TextData textData; RS_Vector textPos = arc->getMiddlePoint(); RS_Vector distV; double textAngle; double dimAngle1 = textPos.angleTo(arc->getCenter())-M_PI/2.0; // rotate text so it's readable from the bottom or right (ISO) // quadrant 1 & 4 if (dimAngle1>M_PI/2.0*3.0+0.001 || dimAngle1<M_PI/2.0+0.001) { distV.setPolar(dimgap, dimAngle1+M_PI/2.0); textAngle = dimAngle1; } // quadrant 2 & 3 else { distV.setPolar(dimgap, dimAngle1-M_PI/2.0); textAngle = dimAngle1+M_PI; } // move text away from dimension line: textPos+=distV; textData = RS_TextData(textPos, dimtxt, 30.0, RS2::VAlignBottom, RS2::HAlignCenter, RS2::LeftToRight, RS2::Exact, 1.0, getLabel(), "standard", textAngle); RS_Text* text = new RS_Text(this, textData); // move text to the side: text->setPen(RS_Pen(RS2::FlagInvalid)); text->setLayer(NULL); addEntity(text); calculateBorders(); }
/** * Updates the sub entities of this dimension. Called when the * dimension or the position, alignment, .. changes. * * @param autoText Automatically reposition the text label */ void RS_DimRadial::updateDim(bool autoText) { RS_DEBUG->print("RS_DimRadial::update"); clear(); if (isUndone()) { return; } // dimension line: //updateCreateDimensionLine(data.definitionPoint, edata.definitionPoint, //false, true); // general scale (DIMSCALE) double dimscale = getGeneralScale(); RS_Vector p1 = data.definitionPoint; RS_Vector p2 = edata.definitionPoint; double angle = p1.angleTo(p2); // text height (DIMTXT) double dimtxt = getTextHeight()*dimscale; // text distance to line (DIMGAP) double dimgap = getDimensionLineGap()*dimscale; // arrow size: double arrowSize = getArrowSize()*dimscale; // length of dimension line: double length = p1.distanceTo(p2); RS_Pen pen(getDimensionLineColor(), getDimensionLineWidth(), RS2::LineByBlock); RS_MTextData textData; textData = RS_MTextData(RS_Vector(0.0,0.0), dimtxt, 30.0, RS_MTextData::VAMiddle, RS_MTextData::HACenter, RS_MTextData::LeftToRight, RS_MTextData::Exact, 1.0, getLabel(), getTextStyle(), // "standard", 0.0); RS_MText* text = new RS_MText(this, textData); double textWidth = text->getSize().x; // do we have to put the arrow / text outside of the arc? bool outsideArrow = (length<arrowSize*2+textWidth); double arrowAngle; if (outsideArrow) { length += arrowSize*2 + textWidth; arrowAngle = angle+M_PI; } else { arrowAngle = angle; } // create arrow: RS_SolidData sd; RS_Solid* arrow; arrow = new RS_Solid(this, sd); arrow->shapeArrow(p2, arrowAngle, arrowSize); // arrow->setPen(RS_Pen(RS2::FlagInvalid)); arrow->setPen(pen); arrow->setLayer(NULL); addEntity(arrow); RS_Vector p3; p3.setPolar(length, angle); p3 += p1; // Create dimension line: RS_Line* dimensionLine = new RS_Line(this, RS_LineData(p1, p3)); dimensionLine->setPen(pen); // dimensionLine->setPen(RS_Pen(RS2::FlagInvalid)); dimensionLine->setLayer(NULL); addEntity(dimensionLine); RS_Vector distV; double textAngle; // rotate text so it's readable from the bottom or right (ISO) // quadrant 1 & 4 if (angle>M_PI_2*3.0+0.001 || angle<M_PI_2+0.001) { distV.setPolar(dimgap + dimtxt/2.0, angle+M_PI_2); textAngle = angle; } // quadrant 2 & 3 else { distV.setPolar(dimgap + dimtxt/2.0, angle-M_PI_2); textAngle = angle+M_PI; } // move text label: RS_Vector textPos; if (data.middleOfText.valid && !autoText) { textPos = data.middleOfText; } else { if (outsideArrow) { textPos.setPolar(length-textWidth/2.0-arrowSize, angle); } else { textPos.setPolar(length/2.0, angle); } textPos+=p1; // move text away from dimension line: textPos += distV; data.middleOfText = textPos; } text->rotate(RS_Vector(0.0,0.0), textAngle); text->move(textPos); text->setPen(RS_Pen(getTextColor(), RS2::WidthByBlock, RS2::SolidLine)); // text->setPen(RS_Pen(RS2::FlagInvalid)); text->setLayer(NULL); addEntity(text); calculateBorders(); }
/** * Creates a dimensioning line (line with one, two or no arrows and a text). * * @param forceAutoText Automatically reposition the text label. */ void RS_Dimension::updateCreateDimensionLine(const RS_Vector& p1, const RS_Vector& p2, bool arrow1, bool arrow2, bool forceAutoText) { // general scale (DIMSCALE) double dimscale = getGeneralScale(); // text height (DIMTXT) double dimtxt = getTextHeight()*dimscale; // text distance to line (DIMGAP) double dimgap = getDimensionLineGap()*dimscale; // length of dimension line: double distance = p1.distanceTo(p2); // arrow size: double arrowSize = getArrowSize()*dimscale; // do we have to put the arrows outside of the line? bool outsideArrows = (distance<arrowSize*2.5); // arrow angles: double arrowAngle1, arrowAngle2; RS_Pen pen(getDimensionLineColor(), getDimensionLineWidth(), RS2::LineByBlock); // Create dimension line: RS_Line* dimensionLine = new RS_Line{this, p1, p2}; dimensionLine->setPen(pen); // dimensionLine->setPen(RS_Pen(RS2::FlagInvalid)); dimensionLine->setLayer(nullptr); addEntity(dimensionLine); if (outsideArrows==false) { arrowAngle1 = dimensionLine->getAngle2(); arrowAngle2 = dimensionLine->getAngle1(); } else { arrowAngle1 = dimensionLine->getAngle1(); arrowAngle2 = dimensionLine->getAngle2(); // extend dimension line outside arrows RS_Vector dir = RS_Vector::polar(arrowSize*2, arrowAngle2); dimensionLine->setStartpoint(p1 + dir); dimensionLine->setEndpoint(p2 - dir); } double dimtsz=getTickSize()*dimscale; if(dimtsz < 0.01) { //display arrow // Arrows: RS_SolidData sd; RS_Solid* arrow; if (arrow1) { // arrow 1 arrow = new RS_Solid(this, sd); arrow->shapeArrow(p1, arrowAngle1, arrowSize); // arrow->setPen(RS_Pen(RS2::FlagInvalid)); arrow->setPen(pen); arrow->setLayer(nullptr); addEntity(arrow); } if (arrow2) { // arrow 2: arrow = new RS_Solid(this, sd); arrow->shapeArrow(p2, arrowAngle2, arrowSize); // arrow->setPen(RS_Pen(RS2::FlagInvalid)); arrow->setPen(pen); arrow->setLayer(nullptr); addEntity(arrow); } }else{ //display ticks // Arrows: RS_Line* tick; RS_Vector tickVector = RS_Vector::polar(dimtsz,arrowAngle1 + M_PI*0.25); //tick is 45 degree away if (arrow1) { // tick 1 tick = new RS_Line(this, p1-tickVector, p1+tickVector); tick->setPen(pen); // tick->setPen(RS_Pen(RS2::FlagInvalid)); tick->setLayer(nullptr); addEntity(tick); } if (arrow2) { // tick 2: tick = new RS_Line(this, p2-tickVector, p2+tickVector); tick->setPen(pen); // tick->setPen(RS_Pen(RS2::FlagInvalid)); tick->setLayer(nullptr); addEntity(tick); } } // Text label: RS_MTextData textData; RS_Vector textPos; double dimAngle1 = dimensionLine->getAngle1(); double textAngle; bool corrected=false; if (getAlignText()) textAngle =0.0; else textAngle = RS_Math::makeAngleReadable(dimAngle1, true, &corrected); if (data.middleOfText.valid && !forceAutoText) { textPos = data.middleOfText; } else { textPos = dimensionLine->getMiddlePoint(); if (!getAlignText()) { // rotate text so it's readable from the bottom or right (ISO) // quadrant 1 & 4 double const a = corrected?-M_PI_2:M_PI_2; RS_Vector distV = RS_Vector::polar(dimgap + dimtxt/2.0, dimAngle1+a); // move text away from dimension line: textPos+=distV; } //// the next update should still be able to adjust this //// auto text position. leave it invalid data.middleOfText = textPos; } textData = RS_MTextData(textPos, dimtxt, 30.0, RS_MTextData::VAMiddle, RS_MTextData::HACenter, RS_MTextData::LeftToRight, RS_MTextData::Exact, 1.0, getLabel(), getTextStyle(), // "standard", textAngle); RS_MText* text = new RS_MText(this, textData); // move text to the side: RS_Vector distH; if (text->getUsedTextWidth()>distance) { distH.setPolar(text->getUsedTextWidth()/2.0 +distance/2.0+dimgap, textAngle); text->move(distH); } text->setPen(RS_Pen(getTextColor(), RS2::WidthByBlock, RS2::SolidLine)); // text->setPen(RS_Pen(RS2::FlagInvalid)); text->setLayer(nullptr); //horizontal text, split dimensionLine if (getAlignText()) { double w =text->getUsedTextWidth()/2+dimgap; double h = text->getUsedTextHeight()/2+dimgap; RS_Vector v1 = textPos - RS_Vector{w, h}; RS_Vector v2 = textPos + RS_Vector{w, h}; RS_EntityContainer c; c.addRectangle(v1, v2); RS_VectorSolutions sol1; for(RS_Entity* e: c) { sol1.push_back( RS_Information::getIntersection(dimensionLine, e, true) ); } //are text intersecting dimensionLine? if (sol1.size()>1) { //yes, split dimension line RS_Line* dimensionLine2 = static_cast<RS_Line*>(dimensionLine->clone()); v1 = sol1.get(0); v2 = sol1.get(1); if (p1.distanceTo(v1) < p1.distanceTo(v2)) { dimensionLine->setEndpoint(v1); dimensionLine2->setStartpoint(v2); } else { dimensionLine->setEndpoint(v2); dimensionLine2->setStartpoint(v1); } addEntity(dimensionLine2); } } addEntity(text); }