/*************************************************************************** * Copyright (c) 2013 Luke Parry * * * * This file is part of the FreeCAD CAx development system. * * * * This library is free software; you can redistribute it and/or * * modify it under the terms of the GNU Library General Public * * License as published by the Free Software Foundation; either * * version 2 of the License, or (at your option) any later version. * * * * This library is distributed in the hope that it will be useful, * * but WITHOUT ANY WARRANTY; without even the implied warranty of * * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * * GNU Library General Public License for more details. * * * * You should have received a copy of the GNU Library General Public * * License along with this library; see the file COPYING.LIB. If not, * * write to the Free Software Foundation, Inc., 59 Temple Place, * * Suite 330, Boston, MA 02111-1307, USA * * * ***************************************************************************/ #include "PreCompiled.h" #ifndef _PreComp_ # include # include # include # include # include # include # include #include #include #include #endif #include #include #include #include #include #include #include #include #include "Geometry.h" #include "DrawViewPart.h" #include "DrawViewDimension.h" #include "DrawUtil.h" #include // generated from DrawViewDimensionPy.xml using namespace TechDraw; //=========================================================================== // DrawViewDimension //=========================================================================== PROPERTY_SOURCE(TechDraw::DrawViewDimension, TechDraw::DrawView) const char* DrawViewDimension::TypeEnums[]= {"Distance", "DistanceX", "DistanceY", "DistanceZ", "Radius", "Diameter", "Angle", NULL}; const char* DrawViewDimension::MeasureTypeEnums[]= {"True", "Projected", NULL}; enum RefType{ invalidRef, oneEdge, twoEdge, twoVertex, vertexEdge }; DrawViewDimension::DrawViewDimension(void) { Base::Reference hGrp = App::GetApplication().GetUserParameter() .GetGroup("BaseApp")->GetGroup("Preferences")->GetGroup("Mod/TechDraw/Labels"); std::string fontName = hGrp->GetASCII("LabelFont", "Sans"); hGrp = App::GetApplication().GetUserParameter() .GetGroup("BaseApp")->GetGroup("Preferences")->GetGroup("Mod/TechDraw/Dimensions"); double fontSize = hGrp->GetFloat("FontSize", 4.0); ADD_PROPERTY_TYPE(References2D,(0,0),"",(App::PropertyType)(App::Prop_None),"Projected Geometry References"); ADD_PROPERTY_TYPE(References3D,(0,0),"",(App::PropertyType)(App::Prop_None),"3D Geometry References"); ADD_PROPERTY_TYPE(Font ,(fontName.c_str()),"Format",App::Prop_None, "The name of the font to use"); ADD_PROPERTY_TYPE(Fontsize,(fontSize) ,"Format",(App::PropertyType)(App::Prop_None),"Dimension text size in mm"); ADD_PROPERTY_TYPE(FormatSpec,("%value%") ,"Format",(App::PropertyType)(App::Prop_None),"Dimension Format"); ADD_PROPERTY_TYPE(LineWidth,(0.5) ,"Format",(App::PropertyType)(App::Prop_None),"Dimension line weight"); //ADD_PROPERTY_TYPE(CentreLines,(0) ,"Format",(App::PropertyType)(App::Prop_None),"Arc Dimension Center Mark"); Type.setEnums(TypeEnums); //dimension type: length, radius etc ADD_PROPERTY(Type,((long)0)); MeasureType.setEnums(MeasureTypeEnums); ADD_PROPERTY(MeasureType, ((long)0)); //True or Projected measurement //hide the properties the user can't edit in the property editor References2D.setStatus(App::Property::Hidden,true); References3D.setStatus(App::Property::Hidden,true); //hide the DrawView properties that don't apply to Dimensions ScaleType.setStatus(App::Property::ReadOnly,true); ScaleType.setStatus(App::Property::Hidden,true); Scale.setStatus(App::Property::ReadOnly,true); Scale.setStatus(App::Property::Hidden,true); Rotation.setStatus(App::Property::ReadOnly,true); Rotation.setStatus(App::Property::Hidden,true); measurement = new Measure::Measurement(); } DrawViewDimension::~DrawViewDimension() { delete measurement; measurement = 0; } void DrawViewDimension::onChanged(const App::Property* prop) { if (!isRestoring()) { if (prop == &MeasureType) { // Base::Console().Message("TRACE -DVD::onChanged(MeasureType) - MeasureType: %d Measurehas3D: %d thisHas3D: %d\n", // MeasureType.getValue(),measurement->has3DReferences(),has3DReferences()); if (MeasureType.isValue("True") && !measurement->has3DReferences()) { Base::Console().Warning("Dimension %s missing Reference to 3D model. Must be Projected.\n", getNameInDocument()); MeasureType.setValue("Projected"); } } if (prop == &References3D) { //have to rebuild the Measurement object // Base::Console().Message("TRACE -DVD::onChanged(References3D) - MeasureType: %d has3D: %d thisHas3D: %d\n", // MeasureType.getValue(),measurement->has3DReferences(),has3DReferences()); clear3DMeasurements(); //Measurement object if (!(References3D.getValues()).empty()) { setAll3DMeasurement(); } else { if (MeasureType.isValue("True")) { //empty 3dRefs, but True MeasureType.touch(); //run MeasureType logic for this case } } } DrawView::onChanged(prop); } } void DrawViewDimension::onDocumentRestored() { if (has3DReferences()) { setAll3DMeasurement(); } } short DrawViewDimension::mustExecute() const { bool result = 0; if (!isRestoring()) { result = (References2D.isTouched() || Type.isTouched() || MeasureType.isTouched()); } if (result) { return result; } return DrawView::mustExecute(); } App::DocumentObjectExecReturn *DrawViewDimension::execute(void) { if (!has2DReferences()) { //too soon return App::DocumentObject::StdReturn; } //TODO: if MeasureType = Projected and the Projected shape changes, the Dimension may become invalid (see tilted Cube example) return App::DocumentObject::execute();; } std::string DrawViewDimension::getFormatedValue() const { QString str = QString::fromUtf8(FormatSpec.getStrValue().data(),FormatSpec.getStrValue().size()); double val = std::abs(getDimValue()); Base::Quantity qVal; qVal.setValue(val); if (Type.isValue("Angle")) { qVal.setUnit(Base::Unit::Angle); } else { qVal.setUnit(Base::Unit::Length); } QString userStr = qVal.getUserString(); //this handles mm to inch/km/parsec etc and decimal positions QRegExp rx2(QString::fromUtf8("\\D*$")); QString userVal = userStr; userVal.remove(rx2); QRegExp rx(QString::fromUtf8("%(\\w+)%")); //any word bracketed by % QStringList list; int pos = 0; while ((pos = rx.indexIn(str, pos)) != -1) { list << rx.cap(0); pos += rx.matchedLength(); } QString repl = userVal; if (showUnits()) { repl = userStr; } for(QStringList::const_iterator it = list.begin(); it != list.end(); ++it) { if(*it == QString::fromUtf8("%value%")){ str.replace(*it,repl); // } else { //insert additional placeholder replacement logic here } } return str.toUtf8().constData(); } double DrawViewDimension::getDimValue() const { double result = 0.0; if (!has2DReferences()) { //happens during Dimension creation Base::Console().Message("INFO - DVD::getDimValue - Dimension has no References\n"); return result; } if (!getViewPart()->hasGeometry()) { //happens when loading saved document Base::Console().Message("INFO - DVD::getDimValue ViewPart has no Geometry yet\n"); return result; } if (MeasureType.isValue("True")) { // True Values if (!measurement->has3DReferences()) { return result; } if(Type.isValue("Distance")) { result = measurement->delta().Length(); } else if(Type.isValue("DistanceX")){ Base::Vector3d delta = measurement->delta(); result = delta.x; } else if(Type.isValue("DistanceY")){ Base::Vector3d delta = measurement->delta(); result = delta.y; } else if(Type.isValue("DistanceZ")){ Base::Vector3d delta = measurement->delta(); result = delta.z; } else if(Type.isValue("Radius")){ result = measurement->radius(); } else if(Type.isValue("Diameter")){ result = measurement->radius() * 2.0; } else if(Type.isValue("Angle")){ result = measurement->angle(); } else { throw Base::Exception("getDimValue() - Unknown Dimension Type (1)"); } } else { // Projected Values const std::vector &objects = References2D.getValues(); const std::vector &subElements = References2D.getSubValues(); if (!checkReferences2D()) { Base::Console().Error("Error: DVD - %s - 2D references are corrupt\n",getNameInDocument()); return result; } if ( Type.isValue("Distance") || Type.isValue("DistanceX") || Type.isValue("DistanceY") ) { if (getRefType() == oneEdge) { //TODO: Check for straight line Edge? int idx = DrawUtil::getIndexFromName(subElements[0]); TechDrawGeometry::BaseGeom* geom = getViewPart()->getProjEdgeByIndex(idx); TechDrawGeometry::Generic* gen; if (geom && geom->geomType == TechDrawGeometry::GeomType::GENERIC) { gen = static_cast(geom); } else { Base::Console().Error("Error: DVD - %s - 2D references are corrupt\n",getNameInDocument()); return result; } Base::Vector2d start = gen->points[0]; Base::Vector2d end = gen->points[1]; Base::Vector2d line = end - start; if (Type.isValue("Distance")) { result = line.Length() / getViewPart()->Scale.getValue(); } else if (Type.isValue("DistanceX")) { return fabs(line.x) / getViewPart()->Scale.getValue(); } else { result = fabs(line.y) / getViewPart()->Scale.getValue(); } }else if (getRefType() == twoEdge) { //only works for straight line edges int idx0 = DrawUtil::getIndexFromName(subElements[0]); int idx1 = DrawUtil::getIndexFromName(subElements[1]); TechDrawGeometry::BaseGeom* geom0 = getViewPart()->getProjEdgeByIndex(idx0); TechDrawGeometry::Generic* gen0; if (geom0 && geom0->geomType == TechDrawGeometry::GeomType::GENERIC) { gen0 = static_cast(geom0); } else { Base::Console().Error("Error: DVD - %s - 2D references are corrupt\n",getNameInDocument()); return result; } TechDrawGeometry::BaseGeom* geom1 = getViewPart()->getProjEdgeByIndex(idx1); TechDrawGeometry::Generic* gen1; if (geom1 && geom1->geomType == TechDrawGeometry::GeomType::GENERIC) { gen1 = static_cast(geom1); } else { Base::Console().Error("Error: DVD - %s - 2D references are corrupt\n",getNameInDocument()); return result; } Base::Vector2d s0 = gen0->points[0]; Base::Vector2d e0 = gen0->points[1]; Base::Vector2d s1 = gen1->points[0]; Base::Vector2d e1 = gen1->points[1]; if (Type.isValue("Distance")) { result = dist2Segs(s0,e0,s1,e1) / getViewPart()->Scale.getValue(); } else if (Type.isValue("DistanceX")) { Base::Vector2d p1 = geom0->nearPoint(geom1); Base::Vector2d p2 = geom1->nearPoint(geom0); result = fabs(p1.x - p2.x) / getViewPart()->Scale.getValue(); } else if (Type.isValue("DistanceY")) { Base::Vector2d p1 = geom0->nearPoint(geom1); Base::Vector2d p2 = geom1->nearPoint(geom0); result = fabs(p1.y - p2.y) / getViewPart()->Scale.getValue(); } } else if (getRefType() == twoVertex) { int idx0 = DrawUtil::getIndexFromName(subElements[0]); int idx1 = DrawUtil::getIndexFromName(subElements[1]); TechDrawGeometry::Vertex* v0 = getViewPart()->getProjVertexByIndex(idx0); TechDrawGeometry::Vertex* v1 = getViewPart()->getProjVertexByIndex(idx1); if ((v0 == nullptr) || (v1 == nullptr) ) { Base::Console().Error("Error: DVD - %s - 2D references are corrupt\n",getNameInDocument()); return result; } Base::Vector2d start = v0->pnt; Base::Vector2d end = v1->pnt; Base::Vector2d line = end - start; if (Type.isValue("Distance")) { result = line.Length() / getViewPart()->Scale.getValue(); } else if (Type.isValue("DistanceX")) { result = fabs(line.x) / getViewPart()->Scale.getValue(); } else { result = fabs(line.y) / getViewPart()->Scale.getValue(); } } else if (getRefType() == vertexEdge) { int idx0 = DrawUtil::getIndexFromName(subElements[0]); int idx1 = DrawUtil::getIndexFromName(subElements[1]); TechDrawGeometry::BaseGeom* e; TechDrawGeometry::Vertex* v; if (DrawUtil::getGeomTypeFromName(subElements[0]) == "Edge") { e = getViewPart()->getProjEdgeByIndex(idx0); v = getViewPart()->getProjVertexByIndex(idx1); } else { e = getViewPart()->getProjEdgeByIndex(idx1); v = getViewPart()->getProjVertexByIndex(idx0); } if ((v == nullptr) || (e == nullptr) ) { Base::Console().Error("Error: DVD - %s - 2D references are corrupt\n",getNameInDocument()); return result; } Base::Vector2d nearPoint = e->nearPoint(v->pnt); Base::Vector2d line = nearPoint - v->pnt; if (Type.isValue("Distance")) { result = e->minDist(v->pnt) / getViewPart()->Scale.getValue(); } else if (Type.isValue("DistanceX")) { result = fabs(line.x) / getViewPart()->Scale.getValue(); } else { result = fabs(line.y) / getViewPart()->Scale.getValue(); } } //else tarfu } else if(Type.isValue("Radius")){ //only 1 reference for a Radius int idx = DrawUtil::getIndexFromName(subElements[0]); TechDrawGeometry::BaseGeom* base = getViewPart()->getProjEdgeByIndex(idx); TechDrawGeometry::Circle* circle; if( (base && base->geomType == TechDrawGeometry::GeomType::CIRCLE) || (base && base->geomType == TechDrawGeometry::GeomType::ARCOFCIRCLE)) { circle = static_cast (base); } else { Base::Console().Error("Error: DVD - %s - 2D references are corrupt\n",getNameInDocument()); return result; } result = circle->radius / getViewPart()->Scale.getValue(); //Projected BaseGeom is scaled for drawing } else if(Type.isValue("Diameter")){ //only 1 reference for a Diameter int idx = DrawUtil::getIndexFromName(subElements[0]); TechDrawGeometry::BaseGeom* base = getViewPart()->getProjEdgeByIndex(idx); TechDrawGeometry::Circle* circle; if ((base && base->geomType == TechDrawGeometry::GeomType::CIRCLE) || (base && base->geomType == TechDrawGeometry::GeomType::ARCOFCIRCLE)) { circle = static_cast (base); } else { return result; } result = (circle->radius * 2.0) / getViewPart()->Scale.getValue(); //Projected BaseGeom is scaled for drawing } else if(Type.isValue("Angle")){ // Must project lines to 2D so cannot use measurement framework this time //Relcalculate the measurement based on references stored. //WF: why not use projected geom in GeomObject and Vector2d.GetAngle? intersection pt & direction issues? //TODO: do we need to distinguish inner vs outer angle? -wf // if(subElements.size() != 2) { // throw Base::Exception("FVD - Two references required for angle measurement"); // } if (getRefType() != twoEdge) { // throw Base::Exception("DVD - Two edge references required for angle measurement"); Base::Console().Error("Error: DVD - %s - 2D references are corrupt\n",getNameInDocument()); return result; } int idx0 = DrawUtil::getIndexFromName(subElements[0]); int idx1 = DrawUtil::getIndexFromName(subElements[1]); auto viewPart( dynamic_cast(objects[0]) ); if( viewPart == nullptr ) { Base::Console().Message("INFO - DVD::getDimValue - References2D not DrawViewPart\n"); return 0.0; } TechDrawGeometry::BaseGeom* edge0 = viewPart->getProjEdgeByIndex(idx0); TechDrawGeometry::BaseGeom* edge1 = viewPart->getProjEdgeByIndex(idx1); TechDrawGeometry::Generic *gen1; TechDrawGeometry::Generic *gen2; if (edge0 && edge0->geomType == TechDrawGeometry::GeomType::GENERIC) { gen1 = static_cast(edge0); } else { Base::Console().Error("Error: DVD - %s - 2D references are corrupt\n",getNameInDocument()); return result; } if (edge1 && edge1->geomType == TechDrawGeometry::GeomType::GENERIC) { gen2 = static_cast(edge1); } else { Base::Console().Error("Error: DVD - %s - 2D references are corrupt\n",getNameInDocument()); return result; } Base::Vector3d p1S(gen1->points.at(0).x, gen1->points.at(0).y, 0.); Base::Vector3d p1E(gen1->points.at(1).x, gen1->points.at(1).y, 0.); Base::Vector3d p2S(gen2->points.at(0).x, gen2->points.at(0).y, 0.); Base::Vector3d p2E(gen2->points.at(1).x, gen2->points.at(1).y, 0.); Base::Vector3d dir1 = p1E - p1S; Base::Vector3d dir2 = p2E - p2S; // Line Intersetion (taken from ViewProviderSketch.cpp) double det = dir1.x*dir2.y - dir1.y*dir2.x; if ((det > 0 ? det : -det) < 1e-10) throw Base::Exception("Invalid selection - Det = 0"); double c1 = dir1.y*gen1->points.at(0).x - dir1.x*gen1->points.at(0).y; double c2 = dir2.y*gen2->points.at(1).x - dir2.x*gen2->points.at(1).y; double x = (dir1.x*c2 - dir2.x*c1)/det; double y = (dir1.y*c2 - dir2.y*c1)/det; // Intersection point Base::Vector3d p0 = Base::Vector3d(x,y,0); Base::Vector3d lPos((double) X.getValue(), (double) Y.getValue(), 0.); //Base::Vector3d delta = lPos - p0; // Create vectors point towards intersection always Base::Vector3d a = -p0, b = -p0; a += ((p1S - p0).Length() < FLT_EPSILON) ? p1E : p1S; b += ((p2S - p0).Length() < FLT_EPSILON) ? p2E : p2S; double angle2 = atan2( a.x*b.y - a.y*b.x, a.x*b.x + a.y*b.y ); result = angle2 * 180. / M_PI; } else { throw Base::Exception("getDimValue() - Unknown Dimension Type (2)"); } //endif Angle } //endif Projected return result; } DrawViewPart* DrawViewDimension::getViewPart() const { if (References2D.getValues().empty()) { return nullptr; } return dynamic_cast(References2D.getValues().at(0)); } int DrawViewDimension::getRefType() const { int refType = invalidRef; const std::vector &subElements = References2D.getSubValues(); if (subElements.size() == 1) { refType = getRefType1(subElements[0]); } else if (subElements.size() == 2) { refType = getRefType2(subElements[0],subElements[1]); } return refType; } //static int DrawViewDimension::getRefType1(const std::string g1) { int refType = invalidRef; if (DrawUtil::getGeomTypeFromName(g1) == "Edge") { refType = oneEdge; } return refType; } //static int DrawViewDimension::getRefType2(const std::string g1, const std::string g2) { int refType = invalidRef; if ((DrawUtil::getGeomTypeFromName(g1) == "Edge") && (DrawUtil::getGeomTypeFromName(g2) == "Edge")) { refType = twoEdge; } else if ((DrawUtil::getGeomTypeFromName(g1) == "Vertex") && (DrawUtil::getGeomTypeFromName(g2) == "Vertex")) { refType = twoVertex; } else if (((DrawUtil::getGeomTypeFromName(g1) == "Vertex") && (DrawUtil::getGeomTypeFromName(g2) == "Edge")) || ((DrawUtil::getGeomTypeFromName(g1) == "Edge") && (DrawUtil::getGeomTypeFromName(g2) == "Vertex")) ) { refType = vertexEdge; } //} else add different types here - Vertex-Face, ... return refType; } //! validate 2D references - only checks if they exist, not if they are the right type bool DrawViewDimension::checkReferences2D() const { Base::Console().Message("TRACE - DVD::checkReferences2D() - %s\n",getNameInDocument()); bool result = true; //const std::vector &objects = References2D.getValues(); const std::vector &subElements = References2D.getSubValues(); for (auto& s: subElements) { int idx = DrawUtil::getIndexFromName(s); if (DrawUtil::getGeomTypeFromName(s) == "Edge") { TechDrawGeometry::BaseGeom* geom = getViewPart()->getProjEdgeByIndex(idx); if (geom == nullptr) { Base::Console().Message("TRACE - DVD::checkRef2D - %s is invalid\n",s.c_str()); result = false; break; } } else if (DrawUtil::getGeomTypeFromName(s) == "Vertex") { TechDrawGeometry::Vertex* v = getViewPart()->getProjVertexByIndex(idx); if (v == nullptr) { Base::Console().Message("TRACE - DVD::checkRef2D - %s is invalid\n",s.c_str()); result = false; break; } } } Base::Console().Message("TRACE - DVD::checkReferences2D returns %d\n",result); return result; } //!add Dimension 3D references to measurement void DrawViewDimension::setAll3DMeasurement() { measurement->clear(); const std::vector &Objs = References3D.getValues(); const std::vector &Subs = References3D.getSubValues(); int end = Objs.size(); int i = 0; for ( ; i < end; i++) { static_cast (measurement->addReference3D(Objs.at(i), Subs.at(i))); } } //delete all previous measurements void DrawViewDimension::clear3DMeasurements() { //set sublinklist to empty? measurement->clear(); } void DrawViewDimension::dumpRefs2D(char* text) const { Base::Console().Message("DUMP - %s\n",text); const std::vector &objects = References2D.getValues(); const std::vector &subElements = References2D.getSubValues(); std::vector::const_iterator objIt = objects.begin(); std::vector::const_iterator subIt = subElements.begin(); int i = 0; for( ;objIt != objects.end();objIt++,subIt++,i++) { Base::Console().Message("DUMP - ref: %d object: %s subElement: %s\n",i,(*objIt)->getNameInDocument(),(*subIt).c_str()); } } double DrawViewDimension::dist2Segs(Base::Vector2d s1, Base::Vector2d e1, Base::Vector2d s2, Base::Vector2d e2) const { gp_Pnt start(s1.x,s1.y,0.0); gp_Pnt end(e1.x,e1.y,0.0); TopoDS_Vertex v1 = BRepBuilderAPI_MakeVertex(start); TopoDS_Vertex v2 = BRepBuilderAPI_MakeVertex(end); BRepBuilderAPI_MakeEdge makeEdge1(v1,v2); TopoDS_Edge edge1 = makeEdge1.Edge(); start = gp_Pnt(s2.x,s2.y,0.0); end = gp_Pnt(e2.x,e2.y,0.0); v1 = BRepBuilderAPI_MakeVertex(start); v2 = BRepBuilderAPI_MakeVertex(end); BRepBuilderAPI_MakeEdge makeEdge2(v1,v2); TopoDS_Edge edge2 = makeEdge2.Edge(); BRepExtrema_DistShapeShape extss(edge1, edge2); if (!extss.IsDone()) { throw Base::Exception("FVD - BRepExtrema_DistShapeShape failed"); } int count = extss.NbSolution(); double minDist = 0.0; if (count != 0) { minDist = extss.Value(); } //TODO: else { explode } return minDist; } bool DrawViewDimension::has2DReferences(void) const { return (References2D.getSize() > 0); } bool DrawViewDimension::has3DReferences(void) const { return (References3D.getSize() > 0); } bool DrawViewDimension::showUnits() const { bool result = false; Base::Reference hGrp = App::GetApplication().GetUserParameter() .GetGroup("BaseApp")->GetGroup("Preferences")->GetGroup("Mod/TechDraw/Dimensions"); result = hGrp->GetBool("ShowUnits", true); return result; } PyObject *DrawViewDimension::getPyObject(void) { if (PythonObject.is(Py::_None())) { // ref counter is set to 1 PythonObject = Py::Object(new DrawViewDimensionPy(this),true); } return Py::new_reference_to(PythonObject); }