Ejemplo n.º 1
0
// Doc in parent
void
SoVRMLCone::computeBBox(SoAction * COIN_UNUSED_ARG(action),
                        SbBox3f & box,
                        SbVec3f & center)
{
  float r = this->bottomRadius.getValue();
  float h = this->height.getValue();

  // Allow negative values.
  if (h < 0.0f) h = -h;
  if (r < 0.0f) r = -r;

  float half_height = h * 0.5f;

  // The SIDES are present, so just find the middle point and enclose
  // everything.
  if (this->side.getValue()) {
    center.setValue(0.0f, 0.0f, 0.0f);
    box.setBounds(SbVec3f(-r, -half_height, -r), SbVec3f(r, half_height, r));
  }
  // ..no SIDES, but we've still got the bottom (NB: OIV misses this case).
  else if (this->bottom.getValue()) {
    center.setValue(0.0f, -half_height, 0.0f);
    box.setBounds(SbVec3f(-r, -half_height, -r), SbVec3f(r, -half_height, r));
  }
  // ..no parts present. My confidence is shot -- I feel very small.
  else {
    center.setValue(0.0f, 0.0f, 0.0f);
    box.setBounds(SbVec3f(0.0f, 0.0f, 0.0f), SbVec3f(0.0f, 0.0f, 0.0f));
  }
}
Ejemplo n.º 2
0
void
SoCylinder::computeBBox(SoAction *, SbBox3f &box, SbVec3f &center)
//
////////////////////////////////////////////////////////////////////////
{
    int		curParts = (parts.isIgnored() ? ALL : parts.getValue());

    if (curParts == 0)		// No parts at all!
	box.setBounds(0.0, 0.0, 0.0, 0.0, 0.0, 0.0);

    else {
	float	r, h;
	SbVec3f	min, max;

	getSize(r, h);

	if (HAS_PART(curParts, SIDES | TOP))
	    max.setValue( r,  h,  r);
	else
	    max.setValue( r, -h,  r);

	if (HAS_PART(curParts, SIDES | BOTTOM))
	    min.setValue(-r, -h, -r);
	else
	    min.setValue(-r,  h, -r);

	box.setBounds(min, max);
    }

    center.setValue(0.0, 0.0, 0.0);
}
Ejemplo n.º 3
0
/**
 * Sets the bounding box of the mesh to \a box and its center to \a center.
 */
void SoPolygon::computeBBox(SoAction *action, SbBox3f &box, SbVec3f &center)
{
    SoState*  state = action->getState();
    const SoCoordinateElement * coords = SoCoordinateElement::getInstance(state);
    if (!coords) return;
    const SbVec3f * points = coords->getArrayPtr3();
    if (!points) return;
    float maxX=-FLT_MAX, minX=FLT_MAX,
          maxY=-FLT_MAX, minY=FLT_MAX,
          maxZ=-FLT_MAX, minZ=FLT_MAX;
    int32_t len = coords->getNum();
    int32_t beg = startIndex.getValue();
    int32_t cnt = numVertices.getValue();
    int32_t end = beg + cnt;
    if (end <= len) {
        for (int32_t i=beg; i<end; i++) {
            maxX = std::max<float>(maxX,points[i][0]);
            minX = std::min<float>(minX,points[i][0]);
            maxY = std::max<float>(maxY,points[i][1]);
            minY = std::min<float>(minY,points[i][1]);
            maxZ = std::max<float>(maxZ,points[i][2]);
            minZ = std::min<float>(minZ,points[i][2]);
        }

        box.setBounds(minX,minY,minZ,maxX,maxY,maxZ);
        center.setValue(0.5f*(minX+maxX),0.5f*(minY+maxY),0.5f*(minZ+maxZ));
    }
    else {
        box.setBounds(SbVec3f(0,0,0), SbVec3f(0,0,0));
        center.setValue(0.0f,0.0f,0.0f);
    }
}
Ejemplo n.º 4
0
// doc in super
void
SoOrthoSlice::computeBBox(SoAction * action, SbBox3f & box, SbVec3f & center)
{
  SoState * state = action->getState();
  if (!PRIVATE(this)->confirmValidInContext(state)) { return; }

  const CvrVoxelBlockElement * vbelem = CvrVoxelBlockElement::getInstance(state);
  if (vbelem == NULL) return;

  SbBox3f vdbox = vbelem->getUnitDimensionsBox();
  SbVec3f bmin, bmax;
  vdbox.getBounds(bmin, bmax);

  const SbVec3s & dimensions = vbelem->getVoxelCubeDimensions();

  const int axisidx = (int)axis.getValue();
  const int slice = this->sliceNumber.getValue();
  const float depth = (float)fabs(bmax[axisidx] - bmin[axisidx]);

  bmin[axisidx] = bmax[axisidx] =
    (bmin[axisidx] + (depth / dimensions[axisidx]) * slice);

  vdbox.setBounds(bmin, bmax);

  box.extendBy(vdbox);
  center = vdbox.getCenter();
}
void ShapeParabolicRectangle::computeBBox( SoAction*, SbBox3f& box, SbVec3f& /*center*/ )
{
	BBox bBox = GetBBox();
	// These points define the min and max extents of the box.
	SbVec3f min, max;

	min.setValue( bBox.pMin.x, bBox.pMin.y, bBox.pMin.z );
	max.setValue( bBox.pMax.x, bBox.pMax.y, bBox.pMax.z );;

	// Set the box to bound the two extreme points.
	box.setBounds(min, max);
}
Ejemplo n.º 6
0
// Doc in parent
void
SoVRMLCylinder::computeBBox(SoAction * COIN_UNUSED_ARG(action),
                            SbBox3f & box,
                            SbVec3f & center)
{
  float r = this->radius.getValue();
  float h = this->height.getValue();

  // Allow negative values.
  if (r < 0.0f) r = -r;
  if (h < 0.0f) h = -h;

  // Either the SIDES are present, or we've at least got both the TOP
  // and BOTTOM caps -- so just find the middle point and enclose
  // everything.
  if (this->side.getValue() ||
      (this->bottom.getValue() &&
       this->top.getValue())) {
    center.setValue(0.0f, 0.0f, 0.0f);
    box.setBounds(SbVec3f(-r, -h/2.0f, -r), SbVec3f(r, h/2.0f, r));
  }
  // ..not a "full" cylinder, but we've got the BOTTOM cap.
  else if (this->bottom.getValue()) {
    center.setValue(0.0f, -h/2.0f, 0.0f);
    box.setBounds(SbVec3f(-r, -h/2.0f, -r), SbVec3f(r, -h/2.0f, r));
  }
  // ..not a "full" cylinder, but we've got the TOP cap.
  else if (this->top.getValue()) {
    center.setValue(0.0f, h/2.0f, 0.0f);
    box.setBounds(SbVec3f(-r, h/2.0f, -r), SbVec3f(r, h/2.0f, r));
  }
  // ..no parts present. My confidence is shot -- I feel very small.
  else {
    center.setValue(0.0f, 0.0f, 0.0f);
    box.setBounds(SbVec3f(0.0f, 0.0f, 0.0f), SbVec3f(0.0f, 0.0f, 0.0f));
  }
}
Ejemplo n.º 7
0
void SoRing::computeBBox(SoAction*, SbBox3f& box, SbVec3f& BBcenter)
{
  float Xc, Yc;
  center.getValue().getValue(Xc,Yc);

  // centered at origin
  BBcenter.setValue(Xc, Yc, 0.);

  // bounding box
  float R = outerRadius.getValue();
  float theta = sweepAngle.getValue()*M_PI/180.F;

  float Xmin, Ymin, Ymax;
  if ( theta < M_PI_2 )
  {
    Ymin = 0;
    Ymax = R*sin(theta);
    Xmin = 0;
  }
  else if ( theta < M_PI )
  {
    Ymin = 0;
    Ymax = R;
    Xmin = R*cos(theta);
  }
  else if ( theta < 3*M_PI_2 )
  {
    Ymin = R*sin(theta);
    Ymax = R;
    Xmin = -R;
  }
  else
  {
    Xmin = -R;
    Ymin = -R;
    Ymax = R;
  }

  SbVec3f corner1(Xmin+Xc,Ymin+Yc,0);
  SbVec3f corner2(R+Xc,Ymax+Yc,0);
  box.setBounds(corner1,corner2);
}
Ejemplo n.º 8
0
void CmdPartDesignBody::activated(int iMsg)
{
    Q_UNUSED(iMsg);
    if ( !PartDesignGui::assureModernWorkflow( getDocument() ) )
        return;
    App::Part *actPart = PartDesignGui::getActivePart ();
    App::Part* partOfBaseFeature = nullptr;

    std::vector<App::DocumentObject*> features =
        getSelection().getObjectsOfType(Part::Feature::getClassTypeId());
    App::DocumentObject* baseFeature = nullptr;
    bool viewAll = features.empty();


    if (!features.empty()) {
        if (features.size() == 1) {
            baseFeature = features[0];
            if ( baseFeature->isDerivedFrom ( PartDesign::Feature::getClassTypeId() ) &&
                    PartDesign::Body::findBodyOf ( baseFeature ) ) {
                // Prevent creating bodies based on features already belonging to other bodies
                QMessageBox::warning(Gui::getMainWindow(), QObject::tr("Bad base feature"),
                        QObject::tr("Body can't be based on a PartDesign feature."));
                baseFeature = nullptr;
            }
            else if (PartDesign::Body::findBodyOf ( baseFeature )){
                QMessageBox::warning(Gui::getMainWindow(), QObject::tr("Bad base feature"),
                        QObject::tr("%1 already belongs to a body, can't use it as base feature for another body.")
                                     .arg(QString::fromUtf8(baseFeature->Label.getValue())));
                baseFeature = nullptr;
            }
            else if ( baseFeature->isDerivedFrom ( Part::BodyBase::getClassTypeId() ) )  {
                // Prevent creating bodies based on bodies
                QMessageBox::warning(Gui::getMainWindow(), QObject::tr("Bad base feature"),
                        QObject::tr("Body can't be based on another body."));
                baseFeature = nullptr;
            }
            else {
                partOfBaseFeature = App::Part::getPartOfObject(baseFeature);
                if (partOfBaseFeature != 0  &&  partOfBaseFeature != actPart){
                    //prevent cross-part mess
                    QMessageBox::warning(Gui::getMainWindow(), QObject::tr("Bad base feature"),
                            QObject::tr("Base feature (%1) belongs to other part.")
                                         .arg(QString::fromUtf8(baseFeature->Label.getValue())));
                    baseFeature = nullptr;
                };
            }

        } else {
            QMessageBox::warning(Gui::getMainWindow(), QObject::tr("Bad base feature"),
                QObject::tr("Body may be based no more than on one feature."));
            return;
        }
    }


    openCommand("Add a Body");

    std::string bodyName = getUniqueObjectName("Body");

    // add the Body feature itself, and make it active
    doCommand(Doc,"App.activeDocument().addObject('PartDesign::Body','%s')", bodyName.c_str());
    if (baseFeature) {
        if (partOfBaseFeature){
            //withdraw base feature from Part, otherwise visibility mandess results
            doCommand(Doc,"App.activeDocument().%s.removeObject(App.activeDocument().%s)",
                    partOfBaseFeature->getNameInDocument(), baseFeature->getNameInDocument());
        }
        doCommand(Doc,"App.activeDocument().%s.BaseFeature = App.activeDocument().%s",
                bodyName.c_str(), baseFeature->getNameInDocument());
    }
    addModule(Gui,"PartDesignGui"); // import the Gui module only once a session
    doCommand(Gui::Command::Gui, "Gui.activeView().setActiveObject('%s', App.activeDocument().%s)", 
            PDBODYKEY, bodyName.c_str());

    // Make the "Create sketch" prompt appear in the task panel
    doCommand(Gui,"Gui.Selection.clearSelection()");
    doCommand(Gui,"Gui.Selection.addSelection(App.ActiveDocument.%s)", bodyName.c_str());
    if (actPart) {
        doCommand(Doc,"App.activeDocument().%s.addObject(App.ActiveDocument.%s)",
                 actPart->getNameInDocument(), bodyName.c_str());
    }

    // The method 'SoCamera::viewBoundingBox' is still declared as protected in Coin3d versions
    // older than 4.0.
#if COIN_MAJOR_VERSION >= 4
    // if no part feature was there then auto-adjust the camera
    if (viewAll) {
        Gui::Document* doc = Gui::Application::Instance->getDocument(getDocument());
        Gui::View3DInventor* view = doc ? qobject_cast<Gui::View3DInventor*>(doc->getActiveView()) : nullptr;
        if (view) {
            SoCamera* camera = view->getViewer()->getCamera();
            SbViewportRegion vpregion = view->getViewer()->getViewportRegion();
            float aspectratio = vpregion.getViewportAspectRatio();

            float size = Gui::ViewProviderOrigin::defaultSize();
            SbBox3f bbox;
            bbox.setBounds(-size,-size,-size,size,size,size);
            camera->viewBoundingBox(bbox, aspectratio, 1.0f);
        }
    }
#endif

    updateActive();
}
Ejemplo n.º 9
0
void SoXipCPUMprRender::computeBBox(SoAction *action, SbBox3f &box, SbVec3f &center)
{
	center.setValue(0.5, 0.5, 0.5);
	box.setBounds(0, 0, 0, 1, 1, 1);
}
Ejemplo n.º 10
0
void SoFCBoundingBox::computeBBox (SoAction * /*action*/, SbBox3f &box, SbVec3f &center)
{
    center = (minBounds.getValue() + maxBounds.getValue()) / 2.0f;
    box.setBounds(minBounds.getValue(), maxBounds.getValue());
}