/
DrawViewSection.cpp
1243 lines (1081 loc) · 44.8 KB
/
DrawViewSection.cpp
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/***************************************************************************
* Copyright (c) 2002 Jürgen Riegel <juergen.riegel@web.de> *
* Copyright (c) 2013 Luke Parry <l.parry@warwick.ac.uk> *
* Copyright (c) 2016, 2022 WandererFan <wandererfan@gmail.com> *
* *
* 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 *
* *
***************************************************************************/
//DrawViewSection processing overview
//execute
// sectionExec(getShapeToCut())
//sectionExec
// makeSectionCut(baseShape)
//makeSectionCut (separate thread)
// m_cuttingTool = makeCuttingTool (DVSTool.brep)
// m_cutPieces = (baseShape - m_cuttingTool) (DVSCutPieces.brep)
//onSectionCutFinished
// m_preparedShape = prepareShape(m_cutPieces) - centered, scaled, rotated
// geometryObject = DVP::buildGeometryObject(m_preparedShape) (HLR)
//postHlrTasks
// faceIntersections = findSectionPlaneIntersections
// m_sectionTopoDSFaces = alignSectionFaces(faceIntersections)
// m_tdSectionFaces = makeTDSectionFaces(m_sectionTopoDSFaces)
#include "PreCompiled.h"
#ifndef _PreComp_
#include <BRepAdaptor_Surface.hxx>
#include <BRepAlgoAPI_Cut.hxx>
#include <BRepBndLib.hxx>
#include <BRepBuilderAPI_Copy.hxx>
#include <BRepBuilderAPI_MakeFace.hxx>
#include <BRepBuilderAPI_Transform.hxx>
#include <BRepPrimAPI_MakePrism.hxx>
#include <BRepTools.hxx>
#include <BRep_Builder.hxx>
#include <Bnd_Box.hxx>
#include <ShapeAnalysis.hxx>
#include <ShapeFix_Shape.hxx>
#include <TopExp.hxx>
#include <TopExp_Explorer.hxx>
#include <TopoDS.hxx>
#include <TopoDS_Compound.hxx>
#include <TopoDS_Edge.hxx>
#include <TopoDS_Face.hxx>
#include <TopoDS_Shape.hxx>
#include <chrono>
#include <gp_Ax2.hxx>
#include <gp_Ax3.hxx>
#include <gp_Dir.hxx>
#include <gp_Pln.hxx>
#include <gp_Pnt.hxx>
#include <sstream>
#include <QtConcurrentRun>
#endif
#include <App/Application.h>
#include <App/Document.h>
#include <Base/BoundBox.h>
#include <Base/Console.h>
#include <Base/FileInfo.h>
#include <Base/Parameter.h>
#include <Mod/Part/App/PartFeature.h>
#include "DrawGeomHatch.h"
#include "DrawHatch.h"
#include "DrawProjGroupItem.h"
#include "DrawUtil.h"
#include "EdgeWalker.h"
#include "GeometryObject.h"
#include "DrawViewSection.h"
using namespace TechDraw;
using DU = DrawUtil;
//class to store geometry of points where the section line changes direction
ChangePoint::ChangePoint(QPointF location, QPointF preDirection, QPointF postDirection)
{
m_location = location;
m_preDirection = preDirection;
m_postDirection = postDirection;
}
ChangePoint::ChangePoint(gp_Pnt location, gp_Dir preDirection, gp_Dir postDirection)
{
m_location.setX(location.X());
m_location.setY(location.Y());
m_preDirection.setX(preDirection.X());
m_preDirection.setY(preDirection.Y());
m_postDirection.setX(postDirection.X());
m_postDirection.setY(postDirection.Y());
}
void ChangePoint::scale(double scaleFactor) { m_location = m_location * scaleFactor; }
const char* DrawViewSection::SectionDirEnums[] = {"Right", "Left", "Up",
"Down", "Aligned", nullptr};
const char* DrawViewSection::CutSurfaceEnums[] = {"Hide", "Color", "SvgHatch", "PatHatch", nullptr};
//===========================================================================
// DrawViewSection
//===========================================================================
PROPERTY_SOURCE(TechDraw::DrawViewSection, TechDraw::DrawViewPart)
DrawViewSection::DrawViewSection() : m_waitingForCut(false), m_shapeSize(0.0)
{
static const char* sgroup = "Section";
static const char* fgroup = "Cut Surface Format";
static const char* ggroup = "Cut Operation";
//general section properties
ADD_PROPERTY_TYPE(SectionSymbol, (""), sgroup, App::Prop_Output,
"The identifier for this section");
ADD_PROPERTY_TYPE(BaseView, (nullptr), sgroup, App::Prop_None,
"2D View source for this Section");
BaseView.setScope(App::LinkScope::Global);
ADD_PROPERTY_TYPE(SectionNormal, (0, 0, 1.0), sgroup, App::Prop_None,
"Section Plane normal direction");//direction of extrusion of cutting prism
ADD_PROPERTY_TYPE(SectionOrigin, (0, 0, 0), sgroup, App::Prop_None, "Section Plane Origin");
//TODO: SectionDirection is a legacy from when SectionViews were only available along
//cardinal directions. It should be made obsolete and replaced with Aligned sections and
//local unit vectors.
SectionDirection.setEnums(SectionDirEnums);
ADD_PROPERTY_TYPE(SectionDirection, ((long)0), sgroup, App::Prop_None,
"Orientation of this Section in the Base View");
//properties related to the cut operation
ADD_PROPERTY_TYPE(FuseBeforeCut, (false), ggroup, App::Prop_None,
"Merge Source(s) into a single shape before cutting");
ADD_PROPERTY_TYPE(TrimAfterCut, (false), ggroup, App::Prop_None,
"Trim the resulting shape after the section cut");
//properties related to the display of the cut surface
CutSurfaceDisplay.setEnums(CutSurfaceEnums);
ADD_PROPERTY_TYPE(CutSurfaceDisplay, (prefCutSurface()), fgroup, App::Prop_None,
"Appearance of Cut Surface");
ADD_PROPERTY_TYPE(FileHatchPattern, (DrawHatch::prefSvgHatch()), fgroup, App::Prop_None,
"The hatch pattern file for the cut surface");
ADD_PROPERTY_TYPE(FileGeomPattern, (DrawGeomHatch::prefGeomHatchFile()), fgroup, App::Prop_None,
"The PAT pattern file for geometric hatching");
ADD_PROPERTY_TYPE(SvgIncluded, (""), fgroup, App::Prop_None,
"Embedded Svg hatch file. System use only.");// n/a to end users
ADD_PROPERTY_TYPE(PatIncluded, (""), fgroup, App::Prop_None,
"Embedded Pat pattern file. System use only.");// n/a to end users
ADD_PROPERTY_TYPE(NameGeomPattern, (DrawGeomHatch::prefGeomHatchName()), fgroup, App::Prop_None,
"The pattern name for geometric hatching");
ADD_PROPERTY_TYPE(HatchScale, (1.0), fgroup, App::Prop_None, "Hatch pattern size adjustment");
ADD_PROPERTY_TYPE(HatchRotation, (0.0), fgroup, App::Prop_None,
"Rotation of hatch pattern in degrees anti-clockwise");
ADD_PROPERTY_TYPE(HatchOffset, (0.0, 0.0, 0.0), fgroup, App::Prop_None, "Hatch pattern offset");
getParameters();
std::string hatchFilter("Svg files (*.svg *.SVG);;All files (*)");
FileHatchPattern.setFilter(hatchFilter);
hatchFilter = ("PAT files (*.pat *.PAT);;All files (*)");
FileGeomPattern.setFilter(hatchFilter);
SvgIncluded.setStatus(App::Property::ReadOnly, true);
PatIncluded.setStatus(App::Property::ReadOnly, true);
//SectionNormal is used instead to Direction
Direction.setStatus(App::Property::ReadOnly, true);
}
DrawViewSection::~DrawViewSection()
{
//don't destroy this object while it has dependent threads running
if (m_cutFuture.isRunning()) {
Base::Console().Message("%s is waiting for tasks to complete\n", Label.getValue());
m_cutFuture.waitForFinished();
}
}
short DrawViewSection::mustExecute() const
{
if (isRestoring()) {
return TechDraw::DrawView::mustExecute();
}
if (Scale.isTouched() || Direction.isTouched() || BaseView.isTouched()
|| SectionNormal.isTouched() || SectionOrigin.isTouched() || Rotation.isTouched()) {
return 1;
}
return TechDraw::DrawView::mustExecute();
}
void DrawViewSection::onChanged(const App::Property* prop)
{
if (isRestoring()) {
DrawViewPart::onChanged(prop);
return;
}
App::Document* doc = getDocument();
if (!doc) {
//tarfu
DrawViewPart::onChanged(prop);
return;
}
if (prop == &SectionNormal) {
Direction.setValue(SectionNormal.getValue());
return;
}
else if (prop == &SectionSymbol) {
if (getBaseDVP()) {
getBaseDVP()->requestPaint();
}
return;
}
else if (prop == &CutSurfaceDisplay) {
if (CutSurfaceDisplay.isValue("PatHatch")) {
makeLineSets();
}
requestPaint();
return;
}
else if (prop == &FileHatchPattern) {
replaceSvgIncluded(FileHatchPattern.getValue());
requestPaint();
return;
}
else if (prop == &FileGeomPattern) {
replacePatIncluded(FileGeomPattern.getValue());
makeLineSets();
requestPaint();
return;
}
else if (prop == &NameGeomPattern) {
makeLineSets();
requestPaint();
return;
}
DrawView::onChanged(prop);
}
TopoDS_Shape DrawViewSection::getShapeToCut()
{
// Base::Console().Message("DVS::getShapeToCut()\n");
App::DocumentObject *base = BaseView.getValue();
TechDraw::DrawViewPart *dvp = nullptr;
TechDraw::DrawViewSection *dvs = nullptr;
if (!base) {
return TopoDS_Shape();
}
TopoDS_Shape shapeToCut;
if (base->getTypeId().isDerivedFrom(TechDraw::DrawViewSection::getClassTypeId())) {
dvs = static_cast<TechDraw::DrawViewSection *>(base);
shapeToCut = dvs->getCutShape();
} else if (base->getTypeId().isDerivedFrom(TechDraw::DrawViewPart::getClassTypeId())) {
dvp = static_cast<TechDraw::DrawViewPart *>(base);
shapeToCut = dvp->getSourceShape();
if (FuseBeforeCut.getValue()) {
shapeToCut = dvp->getSourceShapeFused();
}
} else {
Base::Console().Message("DVS::getShapeToCut - base is weird\n");
return TopoDS_Shape();
}
return shapeToCut;
}
TopoDS_Shape DrawViewSection::getShapeForDetail() const
{
return TechDraw::rotateShape(getCutShape(), getProjectionCS(), Rotation.getValue());
}
App::DocumentObjectExecReturn* DrawViewSection::execute()
{
// Base::Console().Message("DVS::execute() - %s\n", getNameInDocument());
if (!keepUpdated()) {
return App::DocumentObject::StdReturn;
}
if (!isBaseValid()) {
return new App::DocumentObjectExecReturn("BaseView object not found");
}
if (waitingForCut() || waitingForHlr()) {
return DrawView::execute();
}
TopoDS_Shape baseShape = getShapeToCut();
if (baseShape.IsNull()) {
return DrawView::execute();
}
//is SectionOrigin valid?
Bnd_Box centerBox;
BRepBndLib::AddOptimal(baseShape, centerBox);
centerBox.SetGap(0.0);
Base::Vector3d orgPnt = SectionOrigin.getValue();
if (!isReallyInBox(gp_Pnt(orgPnt.x, orgPnt.y, orgPnt.z), centerBox)) {
Base::Console().Warning("DVS: SectionOrigin doesn't intersect part in %s\n",
getNameInDocument());
}
//save important info for later use
m_shapeSize = sqrt(centerBox.SquareExtent());
m_saveShape = baseShape;
bool haveX = checkXDirection();
if (!haveX) {
//block touch/onChanged stuff
Base::Vector3d newX = getXDirection();
XDirection.setValue(newX);
XDirection.purgeTouched();//don't trigger updates!
//unblock
}
sectionExec(baseShape);
addShapes2d();
return DrawView::execute();
}
bool DrawViewSection::isBaseValid() const
{
App::DocumentObject* base = BaseView.getValue();
if (base && base->getTypeId().isDerivedFrom(TechDraw::DrawViewPart::getClassTypeId())) {
return true;
}
return false;
}
void DrawViewSection::sectionExec(TopoDS_Shape& baseShape)
{
// Base::Console().Message("DVS::sectionExec() - %s baseShape.IsNull: %d\n",
// getNameInDocument(), baseShape.IsNull());
if (waitingForHlr() || waitingForCut()) {
return;
}
if (baseShape.IsNull()) {
//should be caught before this
return;
}
m_cuttingTool = makeCuttingTool(m_shapeSize);
try {
//note that &m_cutWatcher in the third parameter is not strictly required, but using the
//4 parameter signature instead of the 3 parameter signature prevents clazy warning:
//https://github.com/KDE/clazy/blob/1.11/docs/checks/README-connect-3arg-lambda.md
connectCutWatcher =
QObject::connect(&m_cutWatcher, &QFutureWatcherBase::finished, &m_cutWatcher,
[this] { this->onSectionCutFinished(); });
m_cutFuture = QtConcurrent::run(this, &DrawViewSection::makeSectionCut, baseShape);
m_cutWatcher.setFuture(m_cutFuture);
waitingForCut(true);
}
catch (...) {
Base::Console().Message("DVS::sectionExec - failed to make section cut");
return;
}
}
void DrawViewSection::makeSectionCut(TopoDS_Shape& baseShape)
{
// Base::Console().Message("DVS::makeSectionCut() - %s - baseShape.IsNull: %d\n",
// getNameInDocument(), baseShape.IsNull());
showProgressMessage(getNameInDocument(), "is making section cut");
// We need to copy the shape to not modify the BRepstructure
BRepBuilderAPI_Copy BuilderCopy(baseShape);
TopoDS_Shape myShape = BuilderCopy.Shape();
m_saveShape = myShape;//save shape for 2nd pass
if (debugSection()) {
BRepTools::Write(myShape, "DVSCopy.brep");//debug
}
if (debugSection()) {
BRepTools::Write(m_cuttingTool, "DVSTool.brep");//debug
}
//perform the cut. We cut each solid in myShape individually to avoid issues where
//a compound BaseShape does not cut correctly.
BRep_Builder builder;
TopoDS_Compound cutPieces;
builder.MakeCompound(cutPieces);
TopExp_Explorer expl(myShape, TopAbs_SOLID);
for (; expl.More(); expl.Next()) {
const TopoDS_Solid& s = TopoDS::Solid(expl.Current());
BRepAlgoAPI_Cut mkCut(s, m_cuttingTool);
if (!mkCut.IsDone()) {
Base::Console().Warning("DVS: Section cut has failed in %s\n", getNameInDocument());
continue;
}
builder.Add(cutPieces, mkCut.Shape());
}
// cutPieces contains result of cutting each subshape in baseShape with tool
m_cutPieces = cutPieces;
if (debugSection()) {
BRepTools::Write(cutPieces, "DVSCutPieces1.brep");//debug
}
//second cut if requested. Sometimes the first cut includes extra uncut pieces.
if (trimAfterCut()) {
BRepAlgoAPI_Cut mkCut2(cutPieces, m_cuttingTool);
if (mkCut2.IsDone()) {
m_cutPieces = mkCut2.Shape();
if (debugSection()) {
BRepTools::Write(m_cutPieces, "DVSCutPieces2.brep");//debug
}
}
}
// check for error in cut
Bnd_Box testBox;
BRepBndLib::AddOptimal(m_cutPieces, testBox);
testBox.SetGap(0.0);
if (testBox.IsVoid()) {//prism & input don't intersect. rawShape is garbage, don't bother.
Base::Console().Warning("DVS::makeSectionCut - prism & input don't intersect - %s\n",
Label.getValue());
return;
}
waitingForCut(false);
}
//position, scale and rotate shape for buildGeometryObject
TopoDS_Shape DrawViewSection::prepareShape(const TopoDS_Shape& rawShape, double shapeSize)
{
// Base::Console().Message("DVS::prepareShape - %s - rawShape.IsNull: %d shapeSize: %.3f\n",
// getNameInDocument(), rawShape.IsNull(), shapeSize);
(void)shapeSize;//shapeSize is not used in this base class, but is interesting for
//derived classes
// build display geometry as in DVP, with minor mods
TopoDS_Shape preparedShape;
try {
Base::Vector3d origin(0.0, 0.0, 0.0);
m_projectionCS = getProjectionCS(origin);
gp_Pnt inputCenter;
inputCenter = TechDraw::findCentroid(rawShape, m_projectionCS);
Base::Vector3d centroid(inputCenter.X(), inputCenter.Y(), inputCenter.Z());
preparedShape = TechDraw::moveShape(rawShape, centroid * -1.0);
m_cutShape = preparedShape;
m_saveCentroid = centroid;
preparedShape = TechDraw::scaleShape(preparedShape, getScale());
if (!DrawUtil::fpCompare(Rotation.getValue(), 0.0)) {
preparedShape =
TechDraw::rotateShape(preparedShape, m_projectionCS, Rotation.getValue());
}
if (debugSection()) {
BRepTools::Write(m_cutShape, "DVSCutShape.brep");//debug
// DrawUtil::dumpCS("DVS::makeSectionCut - CS to GO", viewAxis);
}
}
catch (Standard_Failure& e1) {
Base::Console().Warning("DVS::prepareShape - failed to build shape %s - %s **\n",
getNameInDocument(), e1.GetMessageString());
}
return preparedShape;
}
TopoDS_Shape DrawViewSection::makeCuttingTool(double shapeSize)
{
// Base::Console().Message("DVS::makeCuttingTool(%.3f) - %s\n", shapeSize, getNameInDocument());
// Make the extrusion face
gp_Pln pln = getSectionPlane();
gp_Dir gpNormal = pln.Axis().Direction();
BRepBuilderAPI_MakeFace mkFace(pln, -shapeSize, shapeSize, -shapeSize, shapeSize);
TopoDS_Face aProjFace = mkFace.Face();
if (aProjFace.IsNull()) {
return TopoDS_Shape();
}
if (debugSection()) {
BRepTools::Write(aProjFace, "DVSSectionFace.brep");//debug
}
gp_Vec extrudeDir = shapeSize * gp_Vec(gpNormal);
return BRepPrimAPI_MakePrism(aProjFace, extrudeDir, false, true).Shape();
}
void DrawViewSection::onSectionCutFinished()
{
// Base::Console().Message("DVS::onSectionCutFinished() - %s\n", getNameInDocument());
QObject::disconnect(connectCutWatcher);
showProgressMessage(getNameInDocument(), "has finished making section cut");
m_preparedShape = prepareShape(getShapeToPrepare(), m_shapeSize);
if (debugSection()) {
BRepTools::Write(m_preparedShape, "DVSPreparedShape.brep");//debug
}
postSectionCutTasks();
//display geometry for cut shape is in geometryObject as in DVP
m_tempGeometryObject = buildGeometryObject(m_preparedShape, getProjectionCS());
}
//activities that depend on updated geometry object
void DrawViewSection::postHlrTasks(void)
{
// Base::Console().Message("DVS::postHlrTasks() - %s\n", getNameInDocument());
DrawViewPart::postHlrTasks();
//second pass if required
if (ScaleType.isValue("Automatic")) {
if (!checkFit()) {
double newScale = autoScale();
Scale.setValue(newScale);
Scale.purgeTouched();
sectionExec(m_saveShape);
}
}
overrideKeepUpdated(false);
// build section face geometry
TopoDS_Compound faceIntersections = findSectionPlaneIntersections(getShapeToIntersect());
if (faceIntersections.IsNull()) {
requestPaint();
return;
}
if (debugSection()) {
BRepTools::Write(faceIntersections, "DVSFaceIntersections.brep");//debug
}
TopoDS_Shape centeredFaces = TechDraw::moveShape(faceIntersections, m_saveCentroid * -1.0);
TopoDS_Shape scaledSection = TechDraw::scaleShape(centeredFaces, getScale());
if (!DrawUtil::fpCompare(Rotation.getValue(), 0.0)) {
scaledSection =
TechDraw::rotateShape(scaledSection, getProjectionCS(), Rotation.getValue());
}
m_sectionTopoDSFaces = alignSectionFaces(faceIntersections);
if (debugSection()) {
BRepTools::Write(m_sectionTopoDSFaces, "DVSTopoSectionFaces.brep");//debug
}
m_tdSectionFaces = makeTDSectionFaces(m_sectionTopoDSFaces);
TechDraw::DrawViewPart* dvp = dynamic_cast<TechDraw::DrawViewPart*>(BaseView.getValue());
if (dvp) {
dvp->requestPaint();//to refresh section line
}
requestPaint();//this will be a duplicate paint if we are making a standalone ComplexSection
}
//activities that depend on a valid section cut
void DrawViewSection::postSectionCutTasks()
{
// Base::Console().Message("DVS::postSectionCutTasks()\n");
std::vector<App::DocumentObject*> children = getInList();
for (auto& c : children) {
if (c->getTypeId().isDerivedFrom(DrawViewPart::getClassTypeId())) {
//details or sections of this need cut shape
c->recomputeFeature();
}
}
}
bool DrawViewSection::waitingForResult() const
{
if (DrawViewPart::waitingForResult() || waitingForCut()) {
return true;
}
return false;
}
gp_Pln DrawViewSection::getSectionPlane() const
{
gp_Ax2 viewAxis = getSectionCS();
gp_Ax3 viewAxis3(viewAxis);
return gp_Pln(viewAxis3);
}
//! tries to find the intersection of the section plane with the shape giving a collection of planar faces
//! the original algo finds the intersections first then transforms them to match the centered, rotated
//! and scaled cut shape. Aligned complex sections need to intersect the final cut shape (which in this
//! case is a compound of individual cuts) with the "effective" (flattened) section plane.
TopoDS_Compound DrawViewSection::findSectionPlaneIntersections(const TopoDS_Shape& shape)
{
// Base::Console().Message("DVS::findSectionPlaneIntersections() - %s\n", getNameInDocument());
if (shape.IsNull()) {
// this shouldn't happen
Base::Console().Warning("DrawViewSection::findSectionPlaneInter - %s - input shape is Null\n", getNameInDocument());
return TopoDS_Compound();
}
gp_Pln plnSection = getSectionPlane();
if (debugSection()) {
BRepBuilderAPI_MakeFace mkFace(plnSection, -m_shapeSize, m_shapeSize, -m_shapeSize,
m_shapeSize);
BRepTools::Write(mkFace.Face(), "DVSSectionPlane.brep");//debug
BRepTools::Write(shape, "DVSShapeToIntersect.brep)");
}
BRep_Builder builder;
TopoDS_Compound result;
builder.MakeCompound(result);
TopExp_Explorer expFaces(shape, TopAbs_FACE);
for (; expFaces.More(); expFaces.Next()) {
const TopoDS_Face& face = TopoDS::Face(expFaces.Current());
BRepAdaptor_Surface adapt(face);
if (adapt.GetType() == GeomAbs_Plane) {
gp_Pln plnFace = adapt.Plane();
if (plnSection.Contains(plnFace.Location(), Precision::Confusion())
&& plnFace.Axis().IsParallel(plnSection.Axis(), Precision::Angular())) {
builder.Add(result, face);
}
}
}
return result;
}
//move section faces to line up with cut shape
TopoDS_Compound DrawViewSection::alignSectionFaces(TopoDS_Shape faceIntersections)
{
// Base::Console().Message("DVS::alignSectionFaces() - %s - faceIntersection.isnull: %d\n",
// getNameInDocument(),
// faceIntersections.IsNull());
TopoDS_Compound sectionFaces;
TopoDS_Shape centeredShape =
TechDraw::moveShape(faceIntersections, getOriginalCentroid() * -1.0);
TopoDS_Shape scaledSection = TechDraw::scaleShape(centeredShape, getScale());
if (!DrawUtil::fpCompare(Rotation.getValue(), 0.0)) {
scaledSection =
TechDraw::rotateShape(scaledSection, getProjectionCS(), Rotation.getValue());
}
return mapToPage(scaledSection);
}
TopoDS_Compound DrawViewSection::mapToPage(TopoDS_Shape& shapeToAlign)
{
// shapeToAlign is compound of TopoDS_Face intersections, but aligned to pln(origin, sectionNormal)
// needs to be aligned to paper plane (origin, stdZ);
//project the faces in the shapeToAlign, build new faces from the resulting wires and
//combine everything into a compound of faces
// Base::Console().Message("DVS::mapToPage() - shapeToAlign.null: %d\n", shapeToAlign.IsNull());
if (debugSection()) {
BRepTools::Write(shapeToAlign, "DVSShapeToAlign.brep"); //debug
}
BRep_Builder builder;
TopoDS_Compound result;
builder.MakeCompound(result);
TopExp_Explorer expFace(shapeToAlign, TopAbs_FACE);
for (int iFace = 1; expFace.More(); expFace.Next(), iFace++) {
const TopoDS_Face& face = TopoDS::Face(expFace.Current());
std::vector<TopoDS_Wire> faceWires;
TopExp_Explorer expWires(face, TopAbs_WIRE);
for (; expWires.More(); expWires.Next()) {
const TopoDS_Wire& wire = TopoDS::Wire(expWires.Current());
TopoDS_Shape projectedShape =
GeometryObject::projectSimpleShape(wire, getProjectionCS());
std::vector<TopoDS_Edge> wireEdges;
//projectedShape is just a bunch of edges. we have to rebuild the wire.
TopExp_Explorer expEdges(projectedShape, TopAbs_EDGE);
for (; expEdges.More(); expEdges.Next()) {
const TopoDS_Edge& edge = TopoDS::Edge(expEdges.Current());
wireEdges.push_back(edge);
}
TopoDS_Wire cleanWire = EdgeWalker::makeCleanWire(wireEdges, 2.0 * EWTOLERANCE);
faceWires.push_back(cleanWire);
}
//validate section face wires
std::vector<TopoDS_Wire> goodWires;
constexpr double minWireArea = 0.000001; //arbitrary very small face size
for (auto &wire : faceWires) {
if (wire.IsNull()) {
continue;
}
if (!BRep_Tool::IsClosed(wire)) {
continue; //can not make a face from open wire
}
double area = ShapeAnalysis::ContourArea(wire);
if (area <= minWireArea) {
continue; //can not make a face from wire with no area
}
goodWires.push_back(wire);
}
if (goodWires.empty()) {
Base::Console().Warning("DVS::mapToPage - %s - section face has no valid wires.\n",
getNameInDocument());
continue;
}
TopoDS_Shape holeyShape = makeFaceFromWires(goodWires);
if (holeyShape.IsNull()) {
continue;
}
builder.Add(result, TopoDS::Face(holeyShape));
if (debugSection()) {
std::stringstream ss;
ss << "DVSFaceFromWires" << iFace << ".brep";
BRepTools::Write(holeyShape, ss.str().c_str()); //debug
}
}
return result;
}
//makes a [perforated] face from an outer wire and wires describing the holes. Open wires
//and wires with zero area are assumed to already have been removed.
TopoDS_Shape DrawViewSection::makeFaceFromWires(std::vector<TopoDS_Wire> &inWires)
{
//make sure the largest wire is the first
EdgeWalker eWalker;
std::vector<TopoDS_Wire> goodWires = eWalker.sortWiresBySize(inWires);
// make a face from the good wires
//first good wire should be the outer boundary of the face
TopoDS_Face faceToFix;
TopoDS_Shape orientedShape = goodWires.at(0).Oriented(TopAbs_FORWARD);
TopoDS_Wire orientedWire = TopoDS::Wire(orientedShape);
orientedWire.Orientation(TopAbs_FORWARD);
TopoDS_Face blankFace = BRepBuilderAPI_MakeFace(orientedWire);
int wireCount = goodWires.size();
if (wireCount < 2) {
faceToFix = blankFace;
} else {
//add the holes
BRepBuilderAPI_MakeFace mkFace(blankFace);
for (int iWire = 1; iWire < wireCount; iWire++) {
//make holes in the face with the rest of the wires
orientedShape = goodWires.at(iWire).Oriented(TopAbs_REVERSED);
orientedWire = TopoDS::Wire(orientedShape);
mkFace.Add(orientedWire);
}
if (!mkFace.IsDone()) {
Base::Console().Warning("DVS::makeFaceFromWires - %s - failed to make section face.\n",
getNameInDocument());
return TopoDS_Shape();
}
faceToFix = mkFace.Face();
}
//setting the wire orientation above should generate a valid face, but sometimes
//does not, so we fix the shape to resolve any issues
Handle(ShapeFix_Shape) sfs = new ShapeFix_Shape;
sfs->Init(faceToFix);
sfs->Perform();
return sfs->Shape();
}
//turn OCC section faces into TD geometry
std::vector<TechDraw::FacePtr> DrawViewSection::makeTDSectionFaces(TopoDS_Compound topoDSFaces)
{
// Base::Console().Message("DVS::makeTDSectionFaces()\n");
std::vector<TechDraw::FacePtr> tdSectionFaces;
TopExp_Explorer sectionExpl(topoDSFaces, TopAbs_FACE);
for (; sectionExpl.More(); sectionExpl.Next()) {
const TopoDS_Face& face = TopoDS::Face(sectionExpl.Current());
TechDraw::FacePtr sectionFace(std::make_shared<TechDraw::Face>());
TopExp_Explorer expFace(face, TopAbs_WIRE);
for (; expFace.More(); expFace.Next()) {
TechDraw::Wire* w = new TechDraw::Wire();
const TopoDS_Wire& wire = TopoDS::Wire(expFace.Current());
TopExp_Explorer expWire(wire, TopAbs_EDGE);
for (; expWire.More(); expWire.Next()) {
const TopoDS_Edge& edge = TopoDS::Edge(expWire.Current());
TechDraw::BaseGeomPtr e = BaseGeom::baseFactory(edge);
if (e) {
w->geoms.push_back(e);
}
}
sectionFace->wires.push_back(w);
}
tdSectionFaces.push_back(sectionFace);
}
return tdSectionFaces;
}
//calculate the ends of the section line in BaseView's coords
std::pair<Base::Vector3d, Base::Vector3d> DrawViewSection::sectionLineEnds()
{
std::pair<Base::Vector3d, Base::Vector3d> result;
Base::Vector3d stdZ(0.0, 0.0, 1.0);
double baseRotation = getBaseDVP()->Rotation.getValue();//Qt degrees are clockwise
Base::Rotation rotator(stdZ, baseRotation * M_PI / 180.0);
Base::Rotation unrotator(stdZ, -baseRotation * M_PI / 180.0);
auto sNorm = SectionNormal.getValue();
auto axis = getBaseDVP()->Direction.getValue();
Base::Vector3d stdOrg(0.0, 0.0, 0.0);
Base::Vector3d sectionLineDir = -axis.Cross(sNorm);
sectionLineDir.Normalize();
sectionLineDir = getBaseDVP()->projectPoint(sectionLineDir);//convert to base view CS
sectionLineDir.Normalize();
Base::Vector3d sectionOrg = SectionOrigin.getValue() - getBaseDVP()->getOriginalCentroid();
sectionOrg = getBaseDVP()->projectPoint(sectionOrg);//convert to base view CS
double halfSize = getBaseDVP()->getSizeAlongVector(sectionLineDir) / 2.0;
result.first = sectionOrg + sectionLineDir * halfSize;
result.second = sectionOrg - sectionLineDir * halfSize;
return result;
}
//find the points and directions to make the change point marks.
ChangePointVector DrawViewSection::getChangePointsFromSectionLine()
{
// Base::Console().Message("Dvs::getChangePointsFromSectionLine()\n");
ChangePointVector result;
std::vector<gp_Pnt> allPoints;
DrawViewPart* baseDvp = dynamic_cast<DrawViewPart*>(BaseView.getValue());
if (baseDvp) {
std::pair<Base::Vector3d, Base::Vector3d> lineEnds = sectionLineEnds();
//make start and end marks
gp_Pnt location0 = DU::togp_Pnt(lineEnds.first);
gp_Pnt location1 = DU::togp_Pnt(lineEnds.second);
gp_Dir postDir = gp_Dir(location1.XYZ() - location0.XYZ());
gp_Dir preDir = postDir.Reversed();
ChangePoint startPoint(location0, preDir, postDir);
result.push_back(startPoint);
preDir = gp_Dir(location0.XYZ() - location1.XYZ());
postDir = preDir.Reversed();
ChangePoint endPoint(location1, preDir, postDir);
result.push_back(endPoint);
}
return result;
}
//this should really be in BoundBox.h
//!check if point is in box or on boundary of box
//!compare to isInBox which doesn't allow on boundary
bool DrawViewSection::isReallyInBox(const Base::Vector3d v, const Base::BoundBox3d bb) const
{
if (v.x <= bb.MinX || v.x >= bb.MaxX)
return false;
if (v.y <= bb.MinY || v.y >= bb.MaxY)
return false;
if (v.z <= bb.MinZ || v.z >= bb.MaxZ)
return false;
return true;
}
bool DrawViewSection::isReallyInBox(const gp_Pnt p, const Bnd_Box& bb) const
{
return !bb.IsOut(p);
}
Base::Vector3d DrawViewSection::getXDirection() const
{
// Base::Console().Message("DVS::getXDirection() - %s\n", Label.getValue());
Base::Vector3d result(1.0, 0.0, 0.0);//default X
App::Property* prop = getPropertyByName("XDirection");
if (prop) {
//we have an XDirection property
if (DrawUtil::fpCompare(XDirection.getValue().Length(), 0.0)) {
//but it has no value, so we make a value
if (BaseView.getValue()) {
gp_Ax2 cs = getCSFromBase(SectionDirection.getValueAsString());
gp_Dir gXDir = cs.XDirection();
result = Base::Vector3d(gXDir.X(), gXDir.Y(), gXDir.Z());
}
}
else {
//XDirection is good, so we use it
result = XDirection.getValue();
}
}
else {
//no XDirection property. can this happen?
gp_Ax2 cs = getCSFromBase(SectionDirection.getValueAsString());
gp_Dir gXDir = cs.XDirection();
result = Base::Vector3d(gXDir.X(), gXDir.Y(), gXDir.Z());
}
return result;
}
void DrawViewSection::setCSFromBase(const std::string sectionName)
{
// Base::Console().Message("DVS::setCSFromBase(%s)\n", sectionName.c_str());
gp_Dir gDir = getCSFromBase(sectionName).Direction();
Base::Vector3d vDir(gDir.X(), gDir.Y(), gDir.Z());
Direction.setValue(vDir);
SectionNormal.setValue(vDir);
gp_Dir gxDir = getCSFromBase(sectionName).XDirection();
Base::Vector3d vXDir(gxDir.X(), gxDir.Y(), gxDir.Z());
XDirection.setValue(vXDir);
}
//set the section CS based on an XY vector in BaseViews CS
void DrawViewSection::setCSFromBase(const Base::Vector3d localUnit)
{
// Base::Console().Message("DVS::setCSFromBase(%s)\n", DrawUtil::formatVector(localUnit).c_str());
gp_Ax2 newSectionCS = getBaseDVP()->localVectorToCS(localUnit);
Base::Vector3d vDir(newSectionCS.Direction().X(), newSectionCS.Direction().Y(),
newSectionCS.Direction().Z());
Direction.setValue(vDir);
SectionNormal.setValue(vDir);
Base::Vector3d vXDir(newSectionCS.XDirection().X(), newSectionCS.XDirection().Y(),
newSectionCS.XDirection().Z());
XDirection.setValue(vXDir);//XDir is for projection
}
//reset the section CS based on an XY vector in current section CS
void DrawViewSection::setCSFromLocalUnit(const Base::Vector3d localUnit)
{
// Base::Console().Message("DVS::setCSFromLocalUnit(%s)\n", DrawUtil::formatVector(localUnit).c_str());
gp_Dir verticalDir = getSectionCS().YDirection();
gp_Ax1 verticalAxis(DrawUtil::togp_Pnt(SectionOrigin.getValue()), verticalDir);
gp_Dir oldNormal = getSectionCS().Direction();
gp_Dir newNormal = DrawUtil::togp_Dir(projectPoint(localUnit));
double angle = oldNormal.AngleWithRef(newNormal, verticalDir);
gp_Ax2 newCS = getSectionCS().Rotated(verticalAxis, angle);
SectionNormal.setValue(DrawUtil::toVector3d(newCS.Direction()));
XDirection.setValue(DrawUtil::toVector3d(newCS.XDirection()));
}
gp_Ax2 DrawViewSection::getCSFromBase(const std::string sectionName) const
{
// Base::Console().Message("DVS::getCSFromBase(%s)\n", sectionName.c_str());
Base::Vector3d origin(0.0, 0.0, 0.0);
Base::Vector3d sectOrigin = SectionOrigin.getValue();
gp_Ax2 dvpCS = getBaseDVP()->getProjectionCS(sectOrigin);
if (debugSection()) {
DrawUtil::dumpCS("DVS::getCSFromBase - dvp CS", dvpCS);
}
gp_Dir dvpDir = dvpCS.Direction();
gp_Dir dvpUp = dvpCS.YDirection();
gp_Dir dvpRight = dvpCS.XDirection();
gp_Pnt dvsLoc(sectOrigin.x, sectOrigin.y, sectOrigin.z);
gp_Dir dvsDir;
gp_Dir dvsXDir;
if (sectionName == "Up") {//looking up
dvsDir = dvpUp.Reversed();
dvsXDir = dvpRight;
}
else if (sectionName == "Down") {
dvsDir = dvpUp;
dvsXDir = dvpRight;
}
else if (sectionName == "Left") {
dvsDir = dvpRight; //dvpX
dvsXDir = dvpDir.Reversed();//-dvpZ
}
else if (sectionName == "Right") {
dvsDir = dvpRight.Reversed();
dvsXDir = dvpDir;
}
else if (sectionName == "Aligned") {
//if aligned, we don't get our direction from the base view
Base::Vector3d sectionNormal = SectionNormal.getValue();
dvsDir = gp_Dir(sectionNormal.x, sectionNormal.y, sectionNormal.z);
Base::Vector3d sectionXDir = XDirection.getValue();
dvsXDir = gp_Dir(sectionXDir.x, sectionXDir.y, sectionXDir.z);
}
else {
dvsDir = dvpRight;
dvsXDir = dvpDir;