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a281832627b45a40bda1a8dd26c316872ab90ba4
create/src/Mod/TechDraw/App/DrawViewPart.cpp
wandererfan a281832627 Change tool from cylinder to prism 
- cutting with cylinder produced too many
  short bsplines from HLR.  Straight cut
  from prism reduces these and speeds up
  HLR significantly.
2018-10-17 11:25:49 +02:00

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/***************************************************************************
* Copyright (c) Jürgen Riegel (juergen.riegel@web.de) 2002 *
* Copyright (c) Luke Parry (l.parry@warwick.ac.uk) 2013 *
* Copyright (c) WandererFan (wandererfan@gmail.com) 2016 *
* *
* 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 <sstream>
#include <BRep_Tool.hxx>
#include <BRepGProp.hxx>
#include <BRepAdaptor_Curve.hxx>
#include <BRepBuilderAPI_MakeEdge.hxx>
#include <BRepBuilderAPI_MakeWire.hxx>
#include <BRepAlgoAPI_Fuse.hxx>
#include <BRepLib.hxx>
#include <BRepLProp_CurveTool.hxx>
#include <BRepLProp_CLProps.hxx>
#include <BRepExtrema_DistShapeShape.hxx>
# include <BRep_Builder.hxx>
#include <BRepBuilderAPI_Copy.hxx>
#include <BRepBuilderAPI_MakeFace.hxx>
#include <BRepBndLib.hxx>
#include <Bnd_Box.hxx>
#include <Geom_Curve.hxx>
#include <GeomAPI_ProjectPointOnCurve.hxx>
#include <GProp_GProps.hxx>
#include <gp_Ax2.hxx>
#include <gp_Pnt.hxx>
#include <gp_Dir.hxx>
#include <gp_Pln.hxx>
#include <gp_XYZ.hxx>
#include <HLRBRep_Algo.hxx>
#include <HLRAlgo_Projector.hxx>
#include <HLRBRep_ShapeBounds.hxx>
#include <HLRBRep_HLRToShape.hxx>
#include <ShapeFix_ShapeTolerance.hxx>
#include <ShapeExtend_WireData.hxx>
#include <ShapeFix_Wire.hxx>
#include <TopoDS.hxx>
#include <TopoDS_Shape.hxx>
#include <TopoDS_Face.hxx>
#include <TopoDS_Edge.hxx>
#include <TopoDS_Vertex.hxx>
#include <TopoDS_Wire.hxx>
#include <TopExp.hxx>
#include <TopExp_Explorer.hxx>
#include <TopTools_IndexedMapOfShape.hxx>
#include <GeomLib_Tool.hxx>
#endif
#include <limits>
#include <algorithm>
#include <cmath>
#include <App/Application.h>
#include <App/Document.h>
#include <App/GroupExtension.h>
#include <App/Part.h>
#include <Base/BoundBox.h>
#include <Base/Console.h>
#include <Base/Exception.h>
#include <Base/FileInfo.h>
#include <Base/Parameter.h>
#include <Mod/Part/App/PartFeature.h>
#include <Mod/Part/App/TopoShape.h>
#include "DrawUtil.h"
#include "DrawViewSection.h"
#include "DrawProjectSplit.h"
#include "Geometry.h"
#include "GeometryObject.h"
#include "DrawViewPart.h"
#include "DrawHatch.h"
#include "DrawGeomHatch.h"
#include "DrawViewDimension.h"
#include "DrawViewDetail.h"
#include "DrawPage.h"
#include "EdgeWalker.h"
#include "LineGroup.h"
#include <Mod/TechDraw/App/DrawViewPartPy.h> // generated from DrawViewPartPy.xml
using namespace TechDraw;
using namespace std;
//===========================================================================
// DrawViewPart
//===========================================================================
PROPERTY_SOURCE(TechDraw::DrawViewPart, TechDraw::DrawView)
DrawViewPart::DrawViewPart(void) : geometryObject(0)
{
static const char *group = "Projection";
static const char *sgroup = "HLR Parameters";
nowUnsetting = false;
Base::Reference<ParameterGrp> hGrp = App::GetApplication().GetUserParameter().GetGroup("BaseApp")->
GetGroup("Preferences")->GetGroup("Mod/TechDraw/General");
double defDist = hGrp->GetFloat("FocusDistance",100.0);
//properties that affect Geometry
ADD_PROPERTY_TYPE(Source ,(0),group,App::Prop_None,"3D Shape to view");
Source.setScope(App::LinkScope::Global);
ADD_PROPERTY_TYPE(Direction ,(0.0,-1.0,0.0),
group,App::Prop_None,"Projection direction. The direction you are looking from.");
ADD_PROPERTY_TYPE(Perspective ,(false),group,App::Prop_None,"Perspective(true) or Orthographic(false) projection");
ADD_PROPERTY_TYPE(Focus,(defDist),group,App::Prop_None,"Perspective view focus distance");
//properties that control HLR algoaffect Appearance
bool coarseView = hGrp->GetBool("CoarseView", false);
ADD_PROPERTY_TYPE(CoarseView, (coarseView), sgroup, App::Prop_None, "Coarse View on/off");
//visible outline
ADD_PROPERTY_TYPE(SmoothVisible ,(false),sgroup,App::Prop_None,"Visible Smooth lines on/off");
ADD_PROPERTY_TYPE(SeamVisible ,(false),sgroup,App::Prop_None,"Visible Seam lines on/off");
ADD_PROPERTY_TYPE(IsoVisible ,(false),sgroup,App::Prop_None,"Visible Iso u,v lines on/off");
ADD_PROPERTY_TYPE(HardHidden ,(false),sgroup,App::Prop_None,"Hidden Hard lines on/off");
ADD_PROPERTY_TYPE(SmoothHidden ,(false),sgroup,App::Prop_None,"Hidden Smooth lines on/off");
ADD_PROPERTY_TYPE(SeamHidden ,(false),sgroup,App::Prop_None,"Hidden Seam lines on/off");
ADD_PROPERTY_TYPE(IsoHidden ,(false),sgroup,App::Prop_None,"Hidden Iso u,v lines on/off");
ADD_PROPERTY_TYPE(IsoCount ,(0),sgroup,App::Prop_None,"Number of isoparameters");
geometryObject = nullptr;
getRunControl();
}
DrawViewPart::~DrawViewPart()
{
delete geometryObject;
}
TopoDS_Shape DrawViewPart::getSourceShape(void) const
{
TopoDS_Shape result;
const std::vector<App::DocumentObject*>& links = Source.getValues();
if (links.empty()) {
Base::Console().Log("DVP::getSourceShape - No Sources - creation? - %s\n",getNameInDocument());
} else {
std::vector<TopoDS_Shape> sourceShapes;
for (auto& l:links) {
std::vector<TopoDS_Shape> shapeList = getShapesFromObject(l);
sourceShapes.insert(sourceShapes.end(),shapeList.begin(),shapeList.end());
}
BRep_Builder builder;
TopoDS_Compound comp;
builder.MakeCompound(comp);
bool found = false;
for (auto& s:sourceShapes) {
if (s.IsNull()) {
continue; //has no shape
}
found = true;
BRepBuilderAPI_Copy BuilderCopy(s);
TopoDS_Shape shape = BuilderCopy.Shape();
builder.Add(comp, shape);
}
//it appears that an empty compound is !IsNull(), so we need to check if we added anything to the compound.
if (found) {
result = comp;
}
}
return result;
}
std::vector<TopoDS_Shape> DrawViewPart::getShapesFromObject(App::DocumentObject* docObj) const
{
std::vector<TopoDS_Shape> result;
App::GroupExtension* gex = dynamic_cast<App::GroupExtension*>(docObj);
if (docObj->getTypeId().isDerivedFrom(Part::Feature::getClassTypeId())) {
Part::Feature* pf = static_cast<Part::Feature*>(docObj);
Part::TopoShape ts = pf->Shape.getShape();
ts.setPlacement(pf->globalPlacement());
result.push_back(ts.getShape());
} else if (gex != nullptr) {
std::vector<App::DocumentObject*> objs = gex->Group.getValues();
std::vector<TopoDS_Shape> shapes;
for (auto& d: objs) {
shapes = getShapesFromObject(d);
if (!shapes.empty()) {
result.insert(result.end(),shapes.begin(),shapes.end());
}
}
}
return result;
}
TopoDS_Shape DrawViewPart::getSourceShapeFused(void) const
{
TopoDS_Shape baseShape = getSourceShape();
if (!baseShape.IsNull()) {
TopoDS_Iterator it(baseShape);
TopoDS_Shape fusedShape = it.Value();
it.Next();
for (; it.More(); it.Next()) {
const TopoDS_Shape& aChild = it.Value();
BRepAlgoAPI_Fuse mkFuse(fusedShape, aChild);
// Let's check if the fusion has been successful
if (!mkFuse.IsDone()) {
Base::Console().Error("DVp - Fusion failed - %s\n",getNameInDocument());
return baseShape;
}
fusedShape = mkFuse.Shape();
}
baseShape = fusedShape;
}
return baseShape;
}
App::DocumentObjectExecReturn *DrawViewPart::execute(void)
{
if (!keepUpdated()) {
return App::DocumentObject::StdReturn;
}
TopoDS_Shape shape = getSourceShape();
if (shape.IsNull()) {
return new App::DocumentObjectExecReturn("DVP - Linked shape object is invalid");
}
gp_Pnt inputCenter;
Base::Vector3d stdOrg(0.0,0.0,0.0);
inputCenter = TechDrawGeometry::findCentroid(shape,
getViewAxis(stdOrg,Direction.getValue()));
shapeCentroid = Base::Vector3d(inputCenter.X(),inputCenter.Y(),inputCenter.Z());
TopoDS_Shape mirroredShape;
mirroredShape = TechDrawGeometry::mirrorShape(shape,
inputCenter,
getScale());
gp_Ax2 viewAxis = getViewAxis(shapeCentroid,Direction.getValue());
if (!DrawUtil::fpCompare(Rotation.getValue(),0.0)) {
mirroredShape = TechDrawGeometry::rotateShape(mirroredShape,
viewAxis,
Rotation.getValue());
}
geometryObject = buildGeometryObject(mirroredShape,viewAxis);
#if MOD_TECHDRAW_HANDLE_FACES
if (handleFaces() && !geometryObject->usePolygonHLR()) {
try {
extractFaces();
}
catch (Standard_Failure& e4) {
Base::Console().Log("LOG - DVP::execute - extractFaces failed for %s - %s **\n",getNameInDocument(),e4.GetMessageString());
return new App::DocumentObjectExecReturn(e4.GetMessageString());
}
}
#endif //#if MOD_TECHDRAW_HANDLE_FACES
requestPaint();
return App::DocumentObject::StdReturn;
}
short DrawViewPart::mustExecute() const
{
short result = 0;
if (!isRestoring()) {
result = (Direction.isTouched() ||
Source.isTouched() ||
Scale.isTouched() ||
ScaleType.isTouched() ||
Perspective.isTouched() ||
Focus.isTouched() ||
SmoothVisible.isTouched() ||
SeamVisible.isTouched() ||
IsoVisible.isTouched() ||
HardHidden.isTouched() ||
SmoothHidden.isTouched() ||
SeamHidden.isTouched() ||
IsoHidden.isTouched() ||
IsoCount.isTouched() ||
CoarseView.isTouched());
}
if (result) {
return result;
}
return TechDraw::DrawView::mustExecute();
}
void DrawViewPart::onChanged(const App::Property* prop)
{
DrawView::onChanged(prop);
//TODO: when scale changes, any Dimensions for this View sb recalculated. DVD should pick this up subject to topological naming issues.
}
//note: slightly different than routine with same name in DrawProjectSplit
TechDrawGeometry::GeometryObject* DrawViewPart::buildGeometryObject(TopoDS_Shape shape, gp_Ax2 viewAxis)
{
TechDrawGeometry::GeometryObject* go = new TechDrawGeometry::GeometryObject(getNameInDocument(), this);
go->setIsoCount(IsoCount.getValue());
go->isPerspective(Perspective.getValue());
go->setFocus(Focus.getValue());
go->usePolygonHLR(CoarseView.getValue());
Base::Vector3d baseProjDir = Direction.getValue();
saveParamSpace(baseProjDir);
if (go->usePolygonHLR()){
go->projectShapeWithPolygonAlgo(shape,
viewAxis);
}
else{
go->projectShape(shape,
viewAxis);
}
auto start = chrono::high_resolution_clock::now();
go->extractGeometry(TechDrawGeometry::ecHARD, //always show the hard&outline visible lines
true);
go->extractGeometry(TechDrawGeometry::ecOUTLINE,
true);
if (SmoothVisible.getValue()) {
go->extractGeometry(TechDrawGeometry::ecSMOOTH,
true);
}
if (SeamVisible.getValue()) {
go->extractGeometry(TechDrawGeometry::ecSEAM,
true);
}
if ((IsoVisible.getValue()) && (IsoCount.getValue() > 0)) {
go->extractGeometry(TechDrawGeometry::ecUVISO,
true);
}
if (HardHidden.getValue()) {
go->extractGeometry(TechDrawGeometry::ecHARD,
false);
go->extractGeometry(TechDrawGeometry::ecOUTLINE,
false);
}
if (SmoothHidden.getValue()) {
go->extractGeometry(TechDrawGeometry::ecSMOOTH,
false);
}
if (SeamHidden.getValue()) {
go->extractGeometry(TechDrawGeometry::ecSEAM,
false);
}
if (IsoHidden.getValue() && (IsoCount.getValue() > 0)) {
go->extractGeometry(TechDrawGeometry::ecUVISO,
false);
}
auto end = chrono::high_resolution_clock::now();
auto diff = end - start;
double diffOut = chrono::duration <double, milli> (diff).count();
Base::Console().Log("TIMING - %s DVP spent: %.3f millisecs in GO::extractGeometry\n",getNameInDocument(),diffOut);
bbox = go->calcBoundingBox();
return go;
}
//! make faces from the existing edge geometry
void DrawViewPart::extractFaces()
{
geometryObject->clearFaceGeom();
const std::vector<TechDrawGeometry::BaseGeom*>& goEdges =
geometryObject->getVisibleFaceEdges(SmoothVisible.getValue(),SeamVisible.getValue());
std::vector<TechDrawGeometry::BaseGeom*>::const_iterator itEdge = goEdges.begin();
std::vector<TopoDS_Edge> origEdges;
for (;itEdge != goEdges.end(); itEdge++) {
origEdges.push_back((*itEdge)->occEdge);
}
std::vector<TopoDS_Edge> faceEdges;
std::vector<TopoDS_Edge> nonZero;
for (auto& e:origEdges) { //drop any zero edges (shouldn't be any by now!!!)
if (!DrawUtil::isZeroEdge(e)) {
nonZero.push_back(e);
} else {
Base::Console().Message("INFO - DVP::extractFaces for %s found ZeroEdge!\n",getNameInDocument());
}
}
faceEdges = nonZero;
origEdges = nonZero;
//HLR algo does not provide all edge intersections for edge endpoints.
//need to split long edges touched by Vertex of another edge
std::vector<splitPoint> splits;
std::vector<TopoDS_Edge>::iterator itOuter = origEdges.begin();
int iOuter = 0;
for (; itOuter != origEdges.end(); ++itOuter, iOuter++) {
TopoDS_Vertex v1 = TopExp::FirstVertex((*itOuter));
TopoDS_Vertex v2 = TopExp::LastVertex((*itOuter));
Bnd_Box sOuter;
BRepBndLib::Add(*itOuter, sOuter);
sOuter.SetGap(0.1);
if (sOuter.IsVoid()) {
Base::Console().Message("DVP::Extract Faces - outer Bnd_Box is void for %s\n",getNameInDocument());
continue;
}
if (DrawUtil::isZeroEdge(*itOuter)) {
Base::Console().Message("DVP::extractFaces - outerEdge: %d is ZeroEdge\n",iOuter); //this is not finding ZeroEdges
continue; //skip zero length edges. shouldn't happen ;)
}
int iInner = 0;
std::vector<TopoDS_Edge>::iterator itInner = faceEdges.begin();
for (; itInner != faceEdges.end(); ++itInner,iInner++) {
if (iInner == iOuter) {
continue;
}
if (DrawUtil::isZeroEdge((*itInner))) {
continue; //skip zero length edges. shouldn't happen ;)
}
Bnd_Box sInner;
BRepBndLib::Add(*itInner, sInner);
sInner.SetGap(0.1);
if (sInner.IsVoid()) {
Base::Console().Log("INFO - DVP::Extract Faces - inner Bnd_Box is void for %s\n",getNameInDocument());
continue;
}
if (sOuter.IsOut(sInner)) { //bboxes of edges don't intersect, don't bother
continue;
}
double param = -1;
if (DrawProjectSplit::isOnEdge((*itInner),v1,param,false)) {
gp_Pnt pnt1 = BRep_Tool::Pnt(v1);
splitPoint s1;
s1.i = iInner;
s1.v = Base::Vector3d(pnt1.X(),pnt1.Y(),pnt1.Z());
s1.param = param;
splits.push_back(s1);
}
if (DrawProjectSplit::isOnEdge((*itInner),v2,param,false)) {
gp_Pnt pnt2 = BRep_Tool::Pnt(v2);
splitPoint s2;
s2.i = iInner;
s2.v = Base::Vector3d(pnt2.X(),pnt2.Y(),pnt2.Z());
s2.param = param;
splits.push_back(s2);
}
} //inner loop
} //outer loop
std::vector<splitPoint> sorted = DrawProjectSplit::sortSplits(splits,true);
auto last = std::unique(sorted.begin(), sorted.end(), DrawProjectSplit::splitEqual); //duplicates to back
sorted.erase(last, sorted.end()); //remove dupl splits
std::vector<TopoDS_Edge> newEdges = DrawProjectSplit::splitEdges(faceEdges,sorted);
if (newEdges.empty()) {
Base::Console().Log("LOG - DVP::extractFaces - no newEdges\n");
return;
}
newEdges = DrawProjectSplit::removeDuplicateEdges(newEdges); //<<< here
//find all the wires in the pile of faceEdges
EdgeWalker ew;
ew.loadEdges(newEdges);
bool success = ew.perform();
if (!success) {
Base::Console().Warning("DVP::extractFaces - %s -Can't make faces from projected edges\n", getNameInDocument());
return;
}
std::vector<TopoDS_Wire> fw = ew.getResultNoDups();
std::vector<TopoDS_Wire> sortedWires = ew.sortStrip(fw,true);
std::vector<TopoDS_Wire>::iterator itWire = sortedWires.begin();
for (; itWire != sortedWires.end(); itWire++) {
//version 1: 1 wire/face - no voids in face
TechDrawGeometry::Face* f = new TechDrawGeometry::Face();
const TopoDS_Wire& wire = (*itWire);
TechDrawGeometry::Wire* w = new TechDrawGeometry::Wire(wire);
f->wires.push_back(w);
geometryObject->addFaceGeom(f);
}
}
std::vector<TechDraw::DrawHatch*> DrawViewPart::getHatches() const
{
std::vector<TechDraw::DrawHatch*> result;
std::vector<App::DocumentObject*> children = getInList();
for (std::vector<App::DocumentObject*>::iterator it = children.begin(); it != children.end(); ++it) {
if ((*it)->getTypeId().isDerivedFrom(DrawHatch::getClassTypeId())) {
TechDraw::DrawHatch* hatch = dynamic_cast<TechDraw::DrawHatch*>(*it);
result.push_back(hatch);
}
}
return result;
}
std::vector<TechDraw::DrawGeomHatch*> DrawViewPart::getGeomHatches() const
{
std::vector<TechDraw::DrawGeomHatch*> result;
std::vector<App::DocumentObject*> children = getInList();
for (std::vector<App::DocumentObject*>::iterator it = children.begin(); it != children.end(); ++it) {
if ((*it)->getTypeId().isDerivedFrom(DrawGeomHatch::getClassTypeId())) {
TechDraw::DrawGeomHatch* geom = dynamic_cast<TechDraw::DrawGeomHatch*>(*it);
result.push_back(geom);
}
}
return result;
}
//return *unique* list of Dimensions which reference this DVP
std::vector<TechDraw::DrawViewDimension*> DrawViewPart::getDimensions() const
{
std::vector<TechDraw::DrawViewDimension*> result;
std::vector<App::DocumentObject*> children = getInList();
std::sort(children.begin(),children.end(),std::less<App::DocumentObject*>());
std::vector<App::DocumentObject*>::iterator newEnd = std::unique(children.begin(),children.end());
for (std::vector<App::DocumentObject*>::iterator it = children.begin(); it != newEnd; ++it) {
if ((*it)->getTypeId().isDerivedFrom(DrawViewDimension::getClassTypeId())) {
TechDraw::DrawViewDimension* dim = dynamic_cast<TechDraw::DrawViewDimension*>(*it);
result.push_back(dim);
}
}
return result;
}
const std::vector<TechDrawGeometry::Vertex *> & DrawViewPart::getVertexGeometry() const
{
return geometryObject->getVertexGeometry();
}
const std::vector<TechDrawGeometry::Face *> & DrawViewPart::getFaceGeometry() const
{
return geometryObject->getFaceGeometry();
}
const std::vector<TechDrawGeometry::BaseGeom *> & DrawViewPart::getEdgeGeometry() const
{
return geometryObject->getEdgeGeometry();
}
//! returns existing BaseGeom of 2D Edge(idx)
TechDrawGeometry::BaseGeom* DrawViewPart::getProjEdgeByIndex(int idx) const
{
const std::vector<TechDrawGeometry::BaseGeom *> &geoms = getEdgeGeometry();
if (geoms.empty()) {
Base::Console().Log("INFO - getProjEdgeByIndex(%d) - no Edge Geometry. Probably restoring?\n",idx);
return NULL;
}
if ((unsigned)idx >= geoms.size()) {
Base::Console().Log("INFO - getProjEdgeByIndex(%d) - invalid index\n",idx);
return NULL;
}
return geoms.at(idx);
}
//! returns existing geometry of 2D Vertex(idx)
TechDrawGeometry::Vertex* DrawViewPart::getProjVertexByIndex(int idx) const
{
const std::vector<TechDrawGeometry::Vertex *> &geoms = getVertexGeometry();
if (geoms.empty()) {
Base::Console().Log("INFO - getProjVertexByIndex(%d) - no Vertex Geometry. Probably restoring?\n",idx);
return NULL;
}
if ((unsigned)idx >= geoms.size()) {
Base::Console().Log("INFO - getProjVertexByIndex(%d) - invalid index\n",idx);
return NULL;
}
return geoms.at(idx);
}
//this is never used!!
//! returns existing geometry of 2D Face(idx)
//version 1 Face has 1 wire
std::vector<TechDrawGeometry::BaseGeom*> DrawViewPart::getProjFaceByIndex(int idx) const
{
(void) idx;
std::vector<TechDrawGeometry::BaseGeom*> result;
const std::vector<TechDrawGeometry::Face *>& faces = getFaceGeometry();
for (auto& f:faces) {
for (auto& w:f->wires) {
for (auto& g:w->geoms) {
result.push_back(g);
}
}
}
return result;
}
std::vector<TopoDS_Wire> DrawViewPart::getWireForFace(int idx) const
{
std::vector<TopoDS_Wire> result;
std::vector<TopoDS_Edge> edges;
const std::vector<TechDrawGeometry::Face *>& faces = getFaceGeometry();
TechDrawGeometry::Face * ourFace = faces.at(idx);
for (auto& w:ourFace->wires) {
edges.clear();
int i = 0;
for (auto& g:w->geoms) {
edges.push_back(g->occEdge);
// DrawUtil::dumpEdge("DVP Face edge",i,g->occEdge);
i++;
}
TopoDS_Wire occwire = EdgeWalker::makeCleanWire(edges);
// BRepLib::BuildCurves3d(occwire); //probably don't need this
result.push_back(occwire);
}
return result;
}
Base::BoundBox3d DrawViewPart::getBoundingBox() const
{
return bbox;
}
double DrawViewPart::getBoxX(void) const
{
Base::BoundBox3d bbx = getBoundingBox(); //bbox is already scaled & centered!
return (bbx.MaxX - bbx.MinX);
}
double DrawViewPart::getBoxY(void) const
{
Base::BoundBox3d bbx = getBoundingBox();
return (bbx.MaxY - bbx.MinY);
}
QRectF DrawViewPart::getRect() const
{
double x = getBoxX();
double y = getBoxY();
QRectF result;
if (std::isinf(x) || std::isinf(y)) {
//geometry isn't created yet. return an arbitrary rect.
result = QRectF(0.0,0.0,100.0,100.0);
} else {
result = QRectF(0.0,0.0,getBoxX(),getBoxY()); //this is from GO and is already scaled
}
return result;
}
//used to project pt (ex SectionOrigin) onto paper plane
Base::Vector3d DrawViewPart::projectPoint(const Base::Vector3d& pt) const
{
gp_Trsf mirrorTransform;
mirrorTransform.SetMirror( gp_Ax2(gp_Pnt(shapeCentroid.x,shapeCentroid.y,shapeCentroid.z),
gp_Dir(0, -1, 0)) );
gp_Pnt basePt(pt.x,pt.y,pt.z);
gp_Pnt mirrorGp = basePt.Transformed(mirrorTransform);
Base::Vector3d mirrorPt(mirrorGp.X(),mirrorGp.Y(), mirrorGp.Z());
Base::Vector3d centeredPoint = mirrorPt - shapeCentroid;
Base::Vector3d direction = Direction.getValue();
gp_Ax2 viewAxis = getViewAxis(centeredPoint,direction);
HLRAlgo_Projector projector( viewAxis );
gp_Pnt2d prjPnt;
projector.Project(gp_Pnt(centeredPoint.x,centeredPoint.y,centeredPoint.z), prjPnt);
return Base::Vector3d(prjPnt.X(),prjPnt.Y(), 0.0);
}
bool DrawViewPart::hasGeometry(void) const
{
bool result = false;
if (geometryObject == nullptr) {
return result;
}
const std::vector<TechDrawGeometry::Vertex*> &verts = getVertexGeometry();
const std::vector<TechDrawGeometry::BaseGeom*> &edges = getEdgeGeometry();
if (verts.empty() &&
edges.empty() ) {
result = false;
} else {
result = true;
}
return result;
}
//boring here. gets more interesting in descendents.
gp_Ax2 DrawViewPart::getViewAxis(const Base::Vector3d& pt,
const Base::Vector3d& axis,
const bool flip) const
{
gp_Ax2 viewAxis = TechDrawGeometry::getViewAxis(pt,axis,flip);
return viewAxis;
}
void DrawViewPart::saveParamSpace(const Base::Vector3d& direction, const Base::Vector3d& xAxis)
{
(void)xAxis;
Base::Vector3d origin(0.0,0.0,0.0);
gp_Ax2 viewAxis = getViewAxis(origin,direction);
gp_Dir xdir = viewAxis.XDirection();
uDir = Base::Vector3d(xdir.X(),xdir.Y(),xdir.Z());
gp_Dir ydir = viewAxis.YDirection();
vDir = Base::Vector3d(ydir.X(),ydir.Y(),ydir.Z());
wDir = Base::Vector3d(direction.x, -direction.y, direction.z);
wDir.Normalize();
}
std::vector<DrawViewSection*> DrawViewPart::getSectionRefs(void) const
{
std::vector<DrawViewSection*> result;
std::vector<App::DocumentObject*> inObjs = getInList();
for (auto& o:inObjs) {
if (o->getTypeId().isDerivedFrom(DrawViewSection::getClassTypeId())) {
result.push_back(static_cast<TechDraw::DrawViewSection*>(o));
}
}
return result;
}
std::vector<DrawViewDetail*> DrawViewPart::getDetailRefs(void) const
{
std::vector<DrawViewDetail*> result;
std::vector<App::DocumentObject*> inObjs = getInList();
for (auto& o:inObjs) {
if (o->getTypeId().isDerivedFrom(DrawViewDetail::getClassTypeId())) {
result.push_back(static_cast<TechDraw::DrawViewDetail*>(o));
}
}
return result;
}
const std::vector<TechDrawGeometry::BaseGeom *> DrawViewPart::getVisibleFaceEdges() const
{
return geometryObject->getVisibleFaceEdges(SmoothVisible.getValue(),SeamVisible.getValue());
}
//is this really the projection plane??
gp_Pln DrawViewPart::getProjPlane() const
{
Base::Vector3d plnPnt(0.0,0.0,0.0);
Base::Vector3d plnNorm = Direction.getValue();
gp_Ax2 viewAxis = getViewAxis(plnPnt,plnNorm,false);
gp_Ax3 viewAxis3(viewAxis);
return gp_Pln(viewAxis3);
}
void DrawViewPart::getRunControl()
{
Base::Reference<ParameterGrp> hGrp = App::GetApplication().GetUserParameter()
.GetGroup("BaseApp")->GetGroup("Preferences")->GetGroup("Mod/TechDraw/General");
m_sectionEdges = hGrp->GetBool("ShowSectionEdges", 0l);
m_handleFaces = hGrp->GetBool("HandleFaces", 1l);
}
bool DrawViewPart::handleFaces(void)
{
return m_handleFaces;
}
bool DrawViewPart::showSectionEdges(void)
{
return m_sectionEdges;
}
//! remove features that are useless without this DVP
//! hatches, geomhatches, dimensions,...
void DrawViewPart::unsetupObject()
{
nowUnsetting = true;
App::Document* doc = getDocument();
std::string docName = doc->getName();
// Remove the View's Hatches from document
std::vector<TechDraw::DrawHatch*> hatches = getHatches();
std::vector<TechDraw::DrawHatch*>::iterator it = hatches.begin();
for (; it != hatches.end(); it++) {
std::string viewName = (*it)->getNameInDocument();
Base::Interpreter().runStringArg("App.getDocument(\"%s\").removeObject(\"%s\")",
docName.c_str(), viewName.c_str());
}
// Remove the View's GeomHatches from document
std::vector<TechDraw::DrawGeomHatch*> gHatches = getGeomHatches();
std::vector<TechDraw::DrawGeomHatch*>::iterator it2 = gHatches.begin();
for (; it2 != gHatches.end(); it2++) {
std::string viewName = (*it2)->getNameInDocument();
Base::Interpreter().runStringArg("App.getDocument(\"%s\").removeObject(\"%s\")",
docName.c_str(), viewName.c_str());
}
// Remove Dimensions which reference this DVP
// must use page->removeObject first
TechDraw::DrawPage* page = findParentPage();
if (page != nullptr) {
std::vector<TechDraw::DrawViewDimension*> dims = getDimensions();
std::vector<TechDraw::DrawViewDimension*>::iterator it3 = dims.begin();
for (; it3 != dims.end(); it3++) {
page->removeView(*it3);
const char* name = (*it3)->getNameInDocument();
if (name) {
Base::Interpreter().runStringArg("App.getDocument(\"%s\").removeObject(\"%s\")",
docName.c_str(), name);
}
}
}
}
//! is this an Isometric projection?
bool DrawViewPart::isIso(void) const
{
bool result = false;
Base::Vector3d dir = Direction.getValue();
if ( DrawUtil::fpCompare(fabs(dir.x),fabs(dir.y)) &&
DrawUtil::fpCompare(fabs(dir.x),fabs(dir.z)) ) {
result = true;
}
return result;
}
PyObject *DrawViewPart::getPyObject(void)
{
if (PythonObject.is(Py::_None())) {
// ref counter is set to 1
PythonObject = Py::Object(new DrawViewPartPy(this),true);
}
return Py::new_reference_to(PythonObject);
}
// Python Drawing feature ---------------------------------------------------------
namespace App {
/// @cond DOXERR
PROPERTY_SOURCE_TEMPLATE(TechDraw::DrawViewPartPython, TechDraw::DrawViewPart)
template<> const char* TechDraw::DrawViewPartPython::getViewProviderName(void) const {
return "TechDrawGui::ViewProviderViewPart";
}
/// @endcond
// explicit template instantiation
template class TechDrawExport FeaturePythonT<TechDraw::DrawViewPart>;
}
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