/**
* 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);
}
void Plugin_Entity::updateData(QHash<int, QVariant> *data){
if (entity == NULL) return;
RS_Entity *ec= entity;
if(hasContainer && dpi!=NULL) {
ec = entity->clone();
}
QHash<int, QVariant> hash = *data;
QString str;
RS_Vector vec;
RS_Pen epen = ec->getPen();
// double num;
if (hash.contains(DPI::LAYER)) {
str = (hash.take(DPI::LAYER)).toString();
ec->setLayer(str);
}
if (hash.contains(DPI::LTYPE)) {
str = (hash.take(DPI::LTYPE)).toString();
epen.setLineType( Converter.str2lt(str) );
}
if (hash.contains(DPI::LWIDTH)) {
str = (hash.take(DPI::LWIDTH)).toString();
epen.setWidth( Converter.str2lw(str) );
}
if (hash.contains(DPI::COLOR)) {
QColor color = hash.take(DPI::COLOR).value<QColor>();
epen.setColor(color);
}
ec->setPen(epen);
RS2::EntityType et = ec->rtti();
switch (et) {
//atomicEntity
case RS2::EntityLine: {
vec = static_cast<RS_Line*>(ec)->getStartpoint();
if (hash.contains(DPI::STARTX)) {
vec.x = (hash.take(DPI::STARTX)).toDouble();
}
if (hash.contains(DPI::STARTY)) {
vec.y = (hash.take(DPI::STARTY)).toDouble();
}
static_cast<RS_Line*>(ec)->setStartpoint(vec);
vec = static_cast<RS_Line*>(ec)->getEndpoint();
if (hash.contains(DPI::ENDX)) {
vec.x = (hash.take(DPI::ENDX)).toDouble();
}
if (hash.contains(DPI::ENDY)) {
vec.y = (hash.take(DPI::ENDY)).toDouble();
}
static_cast<RS_Line*>(ec)->setEndpoint(vec);
break;}
case RS2::EntityPoint: {
vec = static_cast<RS_Point*>(ec)->getPos();
if (hash.contains(DPI::STARTX)) {
vec.x = (hash.take(DPI::STARTX)).toDouble();
}
if (hash.contains(DPI::STARTY)) {
vec.y = (hash.take(DPI::STARTY)).toDouble();
}
static_cast<RS_Point*>(ec)->setPos(vec);
break; }
case RS2::EntityArc: {
RS_Arc *arc = static_cast<RS_Arc*>(ec);
vec = arc->getCenter();
if (hash.contains(DPI::STARTX)) {
vec.x = (hash.take(DPI::STARTX)).toDouble();
}
if (hash.contains(DPI::STARTY)) {
vec.y = (hash.take(DPI::STARTY)).toDouble();
}
arc->setCenter(vec);
if (hash.contains(DPI::RADIUS)) {
arc->setRadius( (hash.take(DPI::RADIUS)).toDouble() );
}
if (hash.contains(DPI::STARTANGLE)) {
arc->setAngle1( (hash.take(DPI::STARTANGLE)).toDouble() );
vec.y = (hash.take(DPI::STARTANGLE)).toDouble();
}
if (hash.contains(DPI::ENDANGLE)) {
arc->setAngle2( (hash.take(DPI::ENDANGLE)).toDouble() );
}
break;}
case RS2::EntityCircle: {
RS_Circle *cir = static_cast<RS_Circle*>(ec);
vec = cir->getCenter();
if (hash.contains(DPI::STARTX)) {
vec.x = (hash.take(DPI::STARTX)).toDouble();
}
if (hash.contains(DPI::STARTY)) {
vec.y = (hash.take(DPI::STARTY)).toDouble();
}
cir->setCenter(vec);
if (hash.contains(DPI::RADIUS)) {
cir->setRadius( (hash.take(DPI::RADIUS)).toDouble() );
}
break;}
case RS2::EntityEllipse: {
RS_Ellipse *ellipse = static_cast<RS_Ellipse*>(ec);
vec = ellipse->getCenter();
if (hash.contains(DPI::STARTX)) {
vec.x = (hash.take(DPI::STARTX)).toDouble();
}
if (hash.contains(DPI::STARTY)) {
vec.y = (hash.take(DPI::STARTY)).toDouble();
}
ellipse->setCenter(vec);
vec = ellipse->getMajorP();
if (hash.contains(DPI::ENDX)) {
vec.x = (hash.take(DPI::ENDX)).toDouble();
}
if (hash.contains(DPI::ENDY)) {
vec.y = (hash.take(DPI::ENDY)).toDouble();
}
ellipse->setMajorP(vec);
if (hash.contains(DPI::STARTANGLE)) {
ellipse->setAngle1((hash.take(DPI::STARTANGLE)).toDouble());
}
if (hash.contains(DPI::ENDANGLE)) {
ellipse->setAngle2((hash.take(DPI::ENDANGLE)).toDouble());
}
if (hash.contains(DPI::HEIGHT)) {
ellipse->setRatio((hash.take(DPI::HEIGHT)).toDouble());
}
if (hash.contains(DPI::REVERSED)) {
ellipse->setReversed( (hash.take(DPI::REVERSED)).toBool());
}
break;}
case RS2::EntitySolid: //TODO
//Only used in dimensions ?
break;
case RS2::EntityConstructionLine:
//Unused ?
break;
case RS2::EntityImage: {
RS_Image *img = static_cast<RS_Image*>(ec);
vec = img->getInsertionPoint();
if (hash.contains(DPI::STARTX)) {
vec.x = (hash.take(DPI::STARTX)).toDouble();
}
if (hash.contains(DPI::STARTY)) {
vec.y = (hash.take(DPI::STARTY)).toDouble();
}
img->setInsertionPoint(vec);
if (hash.contains(DPI::BLKNAME)) {
img->setFile( (hash.take(DPI::BLKNAME)).toString() );
}
vec = img->getUVector();
RS_Vector vec2 = img->getVVector();
RS_Vector vec3(img->getWidth(),img->getHeight());
if (hash.contains(DPI::ENDX)) {
vec.x = (hash.take(DPI::ENDX)).toDouble();
}
if (hash.contains(DPI::ENDY)) {
vec.y = (hash.take(DPI::ENDY)).toDouble();
}
if (hash.contains(DPI::VVECTORX)) {
vec2.x = (hash.take(DPI::VVECTORX)).toDouble();
}
if (hash.contains(DPI::VVECTORY)) {
vec2.y = (hash.take(DPI::VVECTORY)).toDouble();
}
if (hash.contains(DPI::SIZEU)) {
vec3.x = (hash.take(DPI::SIZEU)).toDouble();
}
if (hash.contains(DPI::SIZEV)) {
vec3.y = (hash.take(DPI::SIZEV)).toDouble();
}
img->updateData(vec3, vec, vec2);
break;}
case RS2::EntityOverlayBox:
//Unused ?
break;
//EntityContainer
case RS2::EntityInsert: {
break;}
case RS2::EntityMText: {
RS_MText *txt = static_cast<RS_MText*>(ec);
bool move = false;
vec = txt->getInsertionPoint();
if (hash.contains(DPI::STARTX)) {
vec.x = (hash.take(DPI::STARTX)).toDouble() - vec.x;
move = true;
} else vec.x = 0;
if (hash.contains(DPI::STARTY)) {
vec.y = (hash.take(DPI::STARTY)).toDouble() - vec.y;
move = true;
} else vec.y = 0;
if (move)
txt->move(vec);
if (hash.contains(DPI::TEXTCONTENT)) {
txt->setText( (hash.take(DPI::TEXTCONTENT)).toString() );
}
if (hash.contains(DPI::STARTANGLE)) {
txt->setAngle( (hash.take(DPI::STARTANGLE)).toDouble() );
}
if (hash.contains(DPI::HEIGHT)) {
txt->setHeight( (hash.take(DPI::HEIGHT)).toDouble() );
}
break;}
case RS2::EntityText: {
RS_Text *txt = static_cast<RS_Text*>(ec);
bool move = false;
vec = txt->getInsertionPoint();
if (hash.contains(DPI::STARTX)) {
vec.x = (hash.take(DPI::STARTX)).toDouble() - vec.x;
move = true;
} else vec.x = 0;
if (hash.contains(DPI::STARTY)) {
vec.y = (hash.take(DPI::STARTY)).toDouble() - vec.y;
move = true;
} else vec.y = 0;
if (move)
txt->move(vec);
if (hash.contains(DPI::TEXTCONTENT)) {
txt->setText( (hash.take(DPI::TEXTCONTENT)).toString() );
}
if (hash.contains(DPI::STARTANGLE)) {
txt->setAngle( (hash.take(DPI::STARTANGLE)).toDouble() );
}
if (hash.contains(DPI::HEIGHT)) {
txt->setHeight( (hash.take(DPI::HEIGHT)).toDouble() );
}
break;}
case RS2::EntityHatch:
break;
case RS2::EntitySpline:
break;
case RS2::EntityPolyline: {
RS_Polyline *pl = static_cast<RS_Polyline*>(ec);
if (hash.take(DPI::CLOSEPOLY).toBool()) {
pl->setClosed(true);
}else{
pl->setClosed(false);
}
break;}
case RS2::EntityVertex:
break;
case RS2::EntityDimAligned:
break;
case RS2::EntityDimLinear:
break;
case RS2::EntityDimRadial:
break;
case RS2::EntityDimDiametric:
break;
case RS2::EntityDimAngular:
break;
case RS2::EntityDimLeader:
break;
case RS2::EntityUnknown:
default:
break;
}
ec->update();
if(hasContainer && dpi!=NULL)
this->dpi->updateEntity(entity, ec);
}
/**
* 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);
}