/**
* @return Center of the measured dimension.
*/
RS_Vector RS_DimAngular::getCenter() {
RS_ConstructionLine l1(NULL, RS_ConstructionLineData(edata.definitionPoint1,
edata.definitionPoint2));
RS_ConstructionLine l2(NULL, RS_ConstructionLineData(edata.definitionPoint3,
data.definitionPoint));
RS_VectorSolutions vs = RS_Information::getIntersection(&l1, &l2, false);
return vs.get(0);
}
/**
* Creates an entity parallel to the given entity e through the given
* 'coord'.
*
* @param coord Coordinate to define the distance / side (typically a
* mouse coordinate).
* @param number Number of parallels.
* @param e Original entity.
*
* @return Pointer to the first created parallel or nullptr if no
* parallel has been created.
*/
RS_Entity* RS_Creation::createParallelThrough(const RS_Vector& coord,
int number,
RS_Entity* e) {
if (!e) {
return nullptr;
}
double dist;
if (e->rtti()==RS2::EntityLine) {
RS_Line* l = (RS_Line*)e;
RS_ConstructionLine cl(nullptr,
RS_ConstructionLineData(l->getStartpoint(),
l->getEndpoint()));
dist = cl.getDistanceToPoint(coord);
} else {
dist = e->getDistanceToPoint(coord);
}
if (dist<RS_MAXDOUBLE) {
return createParallel(coord, dist, number, e);
} else {
return nullptr;
}
}
/**
* @return Automatically created label for the default
* measurement of this dimension.
*/
QString RS_DimLinear::getMeasuredLabel() {
// direction of dimension line
RS_Vector dirDim;
dirDim.setPolar(100.0, edata.angle);
// construction line for dimension line
RS_ConstructionLine dimLine(NULL,
RS_ConstructionLineData(data.definitionPoint,
data.definitionPoint + dirDim));
RS_Vector dimP1 = dimLine.getNearestPointOnEntity(edata.extensionPoint1);
RS_Vector dimP2 = dimLine.getNearestPointOnEntity(edata.extensionPoint2);
// Definitive dimension line:
double dist = dimP1.distanceTo(dimP2);
RS_Graphic* graphic = getGraphic();
QString ret;
if (graphic!=NULL) {
ret = RS_Units::formatLinear(dist, graphic->getUnit(),
graphic->getLinearFormat(), graphic->getLinearPrecision());
}
else {
ret = QString("%1").arg(dist);
}
return ret;
}
void RS_DimAligned::updateDimPoint(){
// temporary construction line
RS_ConstructionLine tmpLine( nullptr,
RS_ConstructionLineData(edata.extensionPoint1, edata.extensionPoint2));
RS_Vector tmpP1 = tmpLine.getNearestPointOnEntity(data.definitionPoint);
data.definitionPoint += edata.extensionPoint2 - tmpP1;
}
void RS_ActionDimAligned::preparePreview() {
RS_Vector dirV = RS_Vector::polar(100.,
edata->extensionPoint1.angleTo(
edata->extensionPoint2)
+M_PI_2);
RS_ConstructionLine cl(nullptr,
RS_ConstructionLineData(
edata->extensionPoint2,
edata->extensionPoint2+dirV));
data->definitionPoint =
cl.getNearestPointOnEntity(data->definitionPoint);
}
void RS_ActionDimLinear::preparePreview() {
RS_Vector dirV;
dirV.setPolar(100.0, edata.angle+M_PI/2.0);
RS_ConstructionLine cl(
NULL,
RS_ConstructionLineData(
edata.extensionPoint2,
edata.extensionPoint2+dirV));
data.definitionPoint =
cl.getNearestPointOnEntity(data.definitionPoint);
}
void RS_DimAligned::moveRef(const RS_Vector& ref, const RS_Vector& offset) {
if (ref.distanceTo(data.definitionPoint)<1.0e-4) {
RS_ConstructionLine l(NULL,
RS_ConstructionLineData(edata.extensionPoint1,
edata.extensionPoint2));
double d = l.getDistanceToPoint(data.definitionPoint+offset);
double a = edata.extensionPoint2.angleTo(data.definitionPoint);
double ad = RS_Math::getAngleDifference(a,
edata.extensionPoint2.angleTo(data.definitionPoint+offset));
if (fabs(ad)>M_PI/2.0 && fabs(ad)<3.0/2.0*M_PI) {
a = RS_Math::correctAngle(a+M_PI);
}
RS_Vector v;
v.setPolar(d, a);
data.definitionPoint = edata.extensionPoint2 + v;
update(true);
}
else if (ref.distanceTo(data.middleOfText)<1.0e-4) {
data.middleOfText.move(offset);
update(false);
}
else if (ref.distanceTo(edata.extensionPoint1)<1.0e-4) {
double a1 = edata.extensionPoint2.angleTo(edata.extensionPoint1);
double a2 = edata.extensionPoint2.angleTo(edata.extensionPoint1+offset);
double d1 = edata.extensionPoint2.distanceTo(edata.extensionPoint1);
double d2 = edata.extensionPoint2.distanceTo(edata.extensionPoint1+offset);
rotate(edata.extensionPoint2, a2-a1);
if (fabs(d1)>1.0e-4) {
scale(edata.extensionPoint2, RS_Vector(d2/d1, d2/d1));
}
update(true);
}
else if (ref.distanceTo(edata.extensionPoint2)<1.0e-4) {
double a1 = edata.extensionPoint1.angleTo(edata.extensionPoint2);
double a2 = edata.extensionPoint1.angleTo(edata.extensionPoint2+offset);
double d1 = edata.extensionPoint1.distanceTo(edata.extensionPoint2);
double d2 = edata.extensionPoint1.distanceTo(edata.extensionPoint2+offset);
rotate(edata.extensionPoint1, a2-a1);
if (fabs(d1)>1.0e-4) {
scale(edata.extensionPoint1, RS_Vector(d2/d1, d2/d1));
}
update(true);
}
}
/**
* @return Automatically created label for the default
* measurement of this dimension.
*/
QString RS_DimLinear::getMeasuredLabel() {
// direction of dimension line
RS_Vector dirDim = RS_Vector::polar(100.0, edata.angle);
// construction line for dimension line
RS_ConstructionLine dimLine(nullptr,
RS_ConstructionLineData(data.definitionPoint,
data.definitionPoint + dirDim));
RS_Vector dimP1 = dimLine.getNearestPointOnEntity(edata.extensionPoint1);
RS_Vector dimP2 = dimLine.getNearestPointOnEntity(edata.extensionPoint2);
// Definitive dimension line:
double dist = dimP1.distanceTo(dimP2) * getGeneralFactor();
RS_Graphic* graphic = getGraphic();
QString ret;
if (graphic) {
int dimlunit = getGraphicVariableInt("$DIMLUNIT", 2);
int dimdec = getGraphicVariableInt("$DIMDEC", 4);
int dimzin = getGraphicVariableInt("$DIMZIN", 1);
RS2::LinearFormat format = graphic->getLinearFormat(dimlunit);
ret = RS_Units::formatLinear(dist, RS2::None, format, dimdec);
if (format == RS2::Decimal)
ret = stripZerosLinear(ret, dimzin);
//verify if units are decimal and comma separator
if (format == RS2::Decimal || format == RS2::ArchitecturalMetric){
if (getGraphicVariableInt("$DIMDSEP", 0) == 44)
ret.replace(QChar('.'), QChar(','));
}
}
else {
ret = QString("%1").arg(dist);
}
return ret;
}
/**
* Updates the sub entities of this dimension. Called when the
* text or the position, alignment, .. changes.
*
* @param autoText Automatically reposition the text label
*/
void RS_DimLinear::update(bool autoText) {
RS_DEBUG->print("RS_DimLinear::update");
clear();
if (isUndone()) {
return;
}
// general scale (DIMSCALE)
double dimscale = getGeneralScale();
// distance from entities (DIMEXO)
double dimexo = getExtensionLineOffset()*dimscale;
// extension line extension (DIMEXE)
double dimexe = getExtensionLineExtension()*dimscale;
RS_LineData ld;
double extAngle = edata.angle + (M_PI/2.0);
// direction of dimension line
RS_Vector dirDim;
dirDim.setPolar(100.0, edata.angle);
// direction of extension lines
RS_Vector dirExt;
dirExt.setPolar(100.0, extAngle);
// construction line for dimension line
RS_ConstructionLine dimLine(
NULL,
RS_ConstructionLineData(data.definitionPoint,
data.definitionPoint + dirDim));
RS_Vector dimP1 = dimLine.getNearestPointOnEntity(edata.extensionPoint1);
RS_Vector dimP2 = dimLine.getNearestPointOnEntity(edata.extensionPoint2);
// Definitive dimension line:
updateCreateDimensionLine(dimP1, dimP2, true, true, autoText);
/*
ld = RS_LineData(data.definitionPoint, dimP1);
RS_Line* dimensionLine = new RS_Line(this, ld);
addEntity(dimensionLine);
*/
RS_Vector vDimexo1, vDimexe1, vDimexo2, vDimexe2;
vDimexe1.setPolar(dimexe, edata.extensionPoint1.angleTo(dimP1));
vDimexo1.setPolar(dimexo, edata.extensionPoint1.angleTo(dimP1));
vDimexe2.setPolar(dimexe, edata.extensionPoint2.angleTo(dimP2));
vDimexo2.setPolar(dimexo, edata.extensionPoint2.angleTo(dimP2));
if ((edata.extensionPoint1-dimP1).magnitude()<1e-6) {
vDimexe1.setPolar(dimexe,
data.definitionPoint.angleTo(dimP1)-M_PI/2.0);
vDimexo1.setPolar(dimexo,
data.definitionPoint.angleTo(dimP1)-M_PI/2.0);
}
if ((edata.extensionPoint2-dimP2).magnitude()<1e-6) {
vDimexe2.setPolar(dimexe,
data.definitionPoint.angleTo(dimP2)-M_PI/2.0);
vDimexo2.setPolar(dimexo,
data.definitionPoint.angleTo(dimP2)-M_PI/2.0);
}
// extension lines:
ld = RS_LineData(edata.extensionPoint1+vDimexo1,
dimP1+vDimexe1);
RS_Line* line = new RS_Line(this, ld);
line->setPen(RS_Pen(RS2::FlagInvalid));
line->setLayer(NULL);
addEntity(line);
ld = RS_LineData(edata.extensionPoint2+vDimexo2,
dimP2+vDimexe2);
//data.definitionPoint+vDimexe2);
line = new RS_Line(this, ld);
line->setPen(RS_Pen(RS2::FlagInvalid));
line->setLayer(NULL);
addEntity(line);
calculateBorders();
}
/**
* Updates the sub entities of this dimension. Called when the
* text or the position, alignment, .. changes.
*
* @param autoText Automatically reposition the text label
*/
void RS_DimLinear::updateDim(bool autoText) {
RS_DEBUG->print("RS_DimLinear::update");
clear();
if (isUndone()) {
return;
}
// general scale (DIMSCALE)
double dimscale = getGeneralScale();
// distance from entities (DIMEXO)
double dimexo = getExtensionLineOffset()*dimscale;
// extension line extension (DIMEXE)
double dimexe = getExtensionLineExtension()*dimscale;
// direction of dimension line
RS_Vector dirDim = RS_Vector::polar(100.0, edata.angle);
// construction line for dimension line
RS_ConstructionLine dimLine(
nullptr,
RS_ConstructionLineData(data.definitionPoint,
data.definitionPoint + dirDim));
RS_Vector dimP1 = dimLine.getNearestPointOnEntity(edata.extensionPoint1);
RS_Vector dimP2 = dimLine.getNearestPointOnEntity(edata.extensionPoint2);
// Definitive dimension line:
updateCreateDimensionLine(dimP1, dimP2, true, true, autoText);
/*
ld = RS_LineData(data.definitionPoint, dimP1);
RS_Line* dimensionLine = new RS_Line(this, ld);
addEntity(dimensionLine);
*/
double extAngle1, extAngle2;
if ((edata.extensionPoint1-dimP1).magnitude()<1e-6) {
if ((edata.extensionPoint2-dimP2).magnitude()<1e-6) {
//boot extension points are in dimension line only rotate 90
extAngle2 = edata.angle + (M_PI_2);
} else {
//first extension point are in dimension line use second
extAngle2 = edata.extensionPoint2.angleTo(dimP2);
}
extAngle1 = extAngle2;
} else {
//first extension point not are in dimension line use it
extAngle1 = edata.extensionPoint1.angleTo(dimP1);
if ((edata.extensionPoint2-dimP2).magnitude()<1e-6)
extAngle2 = extAngle1;
else
extAngle2 = edata.extensionPoint2.angleTo(dimP2);
}
RS_Vector vDimexe1 = RS_Vector::polar(dimexe, extAngle1);
RS_Vector vDimexe2 = RS_Vector::polar(dimexe, extAngle2);
RS_Vector vDimexo1, vDimexo2;
if (getFixedLengthOn()){
double dimfxl = getFixedLength();
double extLength = (edata.extensionPoint1-dimP1).magnitude();
if (extLength-dimexo > dimfxl)
vDimexo1.setPolar(extLength - dimfxl, extAngle1);
extLength = (edata.extensionPoint2-dimP2).magnitude();
if (extLength-dimexo > dimfxl)
vDimexo2.setPolar(extLength - dimfxl, extAngle2);
} else {
vDimexo1.setPolar(dimexo, extAngle1);
vDimexo2.setPolar(dimexo, extAngle2);
}
RS_Pen pen(getExtensionLineColor(),
getExtensionLineWidth(),
RS2::LineByBlock);
// extension lines:
RS_Line* line = new RS_Line{this,
edata.extensionPoint1+vDimexo1, dimP1+vDimexe1};
line->setPen(pen);
// line->setPen(RS_Pen(RS2::FlagInvalid));
line->setLayer(nullptr);
addEntity(line);
//data.definitionPoint+vDimexe2);
line = new RS_Line{this,
edata.extensionPoint2+vDimexo2, dimP2+vDimexe2};
line->setPen(pen);
// line->setPen(RS_Pen(RS2::FlagInvalid));
line->setLayer(nullptr);
addEntity(line);
calculateBorders();
}
