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create/src/Gui/ViewProvider.cpp
pre-commit-ci[bot] 25c3ba7338 All: Reformat according to new standard
2025-11-11 13:49:01 +01:00

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/***************************************************************************
* Copyright (c) 2004 Jürgen Riegel <juergen.riegel@web.de> *
* *
* 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 <QApplication>
#include <QKeyEvent>
#include <QTimer>
#include <Inventor/SoPickedPoint.h>
#include <Inventor/actions/SoGetBoundingBoxAction.h>
#include <Inventor/details/SoDetail.h>
#include <Inventor/events/SoKeyboardEvent.h>
#include <Inventor/events/SoLocation2Event.h>
#include <Inventor/events/SoMouseButtonEvent.h>
#include <Inventor/nodes/SoSeparator.h>
#include <Inventor/nodes/SoSwitch.h>
#include <Inventor/nodes/SoTransform.h>
#include <Base/BoundBox.h>
#include <Base/Console.h>
#include <Base/Exception.h>
#include <Base/Matrix.h>
#include <Base/Tools.h>
#include "Inventor/SoMouseWheelEvent.h"
#include "Inventor/SoFCTransform.h"
#include "ViewProvider.h"
#include "ActionFunction.h"
#include "Application.h"
#include "BitmapFactory.h"
#include "Document.h"
#include "DockWindowManager.h"
#include "SoFCDB.h"
#include "View3DInventor.h"
#include "View3DInventorViewer.h"
#include "ViewParams.h"
#include "ViewProviderExtension.h"
#include "ViewProviderLink.h"
#include "ViewProviderPy.h"
#include <Utilities.h>
FC_LOG_LEVEL_INIT("ViewProvider", true, true)
using namespace std;
using namespace Gui;
namespace Gui
{
void coinRemoveAllChildren(SoGroup* group)
{
if (!group) {
return;
}
int count = group->getNumChildren();
if (!count) {
return;
}
FC_TRACE("coin remove all children " << count);
SbBool autonotify = group->enableNotify(FALSE);
for (; count > 0; --count) {
group->removeChild(count - 1);
}
group->enableNotify(autonotify);
group->touch();
}
} // namespace Gui
//**************************************************************************
//**************************************************************************
// ViewProvider
//++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
PROPERTY_SOURCE_ABSTRACT(Gui::ViewProvider, App::TransactionalObject)
ViewProvider::ViewProvider()
: overrideMode("As Is")
, toggleVisibilityMode(ToggleVisibilityMode::CanToggleVisibility)
{
setStatus(UpdateData, true);
// SoFCSeparator and SoFCSelectionRoot can both track render cache setting.
// We change to SoFCSelectionRoot so that we can dynamically change full
// selection mode (full highlight vs. boundbox). Note that comparing to
// SoFCSeparator, there are some small overhead with SoFCSelectionRoot for
// selection context tracking.
//
// pcRoot = new SoFCSeparator(true);
pcRoot = new SoFCSelectionRoot(true);
pcRoot->ref();
pcModeSwitch = new SoSwitch();
pcModeSwitch->ref();
pcModeSwitch->setName("ModeSwitch");
pcTransform = new SoFCTransform();
pcTransform->ref();
pcRoot->addChild(pcTransform);
pcRoot->addChild(pcModeSwitch);
sPixmap = "px";
pcModeSwitch->whichChild = _iActualMode;
setRenderCacheMode(ViewParams::instance()->getRenderCache());
}
ViewProvider::~ViewProvider()
{
if (pyViewObject) {
Base::PyGILStateLocker lock;
pyViewObject->setInvalid();
pyViewObject->DecRef();
}
pcRoot->unref();
pcTransform->unref();
pcModeSwitch->unref();
if (pcAnnotation) {
pcAnnotation->unref();
}
}
ViewProvider* ViewProvider::startEditing(int ModNum)
{
try {
if (setEdit(ModNum)) {
_iEditMode = ModNum;
return this;
}
}
catch (const Base::Exception& e) {
e.reportException();
}
return nullptr;
}
int ViewProvider::getEditingMode() const
{
return _iEditMode;
}
bool ViewProvider::isEditing() const
{
return getEditingMode() > -1;
}
void ViewProvider::finishEditing()
{
unsetEdit(_iEditMode);
_iEditMode = -1;
}
bool ViewProvider::setEdit(int ModNum)
{
Q_UNUSED(ModNum);
return true;
}
void ViewProvider::unsetEdit(int ModNum)
{
Q_UNUSED(ModNum);
}
void ViewProvider::setEditViewer(View3DInventorViewer*, int ModNum)
{
Q_UNUSED(ModNum);
}
void ViewProvider::unsetEditViewer(View3DInventorViewer*)
{}
bool ViewProvider::isUpdatesEnabled() const
{
return testStatus(UpdateData);
}
void ViewProvider::setUpdatesEnabled(bool enable)
{
setStatus(UpdateData, enable);
}
void highlight(const HighlightMode& high)
{
Q_UNUSED(high);
}
void ViewProvider::eventCallback(void* ud, SoEventCallback* node)
{
const SoEvent* ev = node->getEvent();
auto viewer = static_cast<Gui::View3DInventorViewer*>(node->getUserData());
auto self = static_cast<ViewProvider*>(ud);
assert(self);
try {
// Keyboard events
if (ev->getTypeId().isDerivedFrom(SoKeyboardEvent::getClassTypeId())) {
auto ke = static_cast<const SoKeyboardEvent*>(ev);
const SbBool press = ke->getState() == SoButtonEvent::DOWN ? true : false;
switch (ke->getKey()) {
case SoKeyboardEvent::ESCAPE:
if (self->keyPressed(press, ke->getKey())) {
node->setHandled();
}
else if (QApplication::mouseButtons() == Qt::NoButton) {
// Because of a Coin bug
// (https://bitbucket.org/Coin3D/coin/pull-requests/119), FC may crash if
// user hits ESC to cancel while still holding the mouse button while using
// some SoDragger. Therefore, we shall ignore ESC while any mouse button is
// pressed, until this Coin bug is fixed.
if (!press) {
// react only on key release
// Let first selection mode terminate
Gui::Document* doc = Gui::Application::Instance->activeDocument();
const auto view = qobject_cast<Gui::View3DInventor*>(doc->getActiveView());
if (view) {
Gui::View3DInventorViewer* viewer = view->getViewer();
if (viewer->isSelecting()) {
return;
}
}
DockWindowManager* pDockMgr = DockWindowManager::instance();
if (QWidget* widget = pDockMgr->getDockWindow("Tasks")) {
auto* ev
= new QKeyEvent(QEvent::KeyPress, Qt::Key_Escape, Qt::NoModifier);
qApp->postEvent(widget, ev);
}
auto func = new Gui::TimerFunction();
func->setAutoDelete(true);
func->setFunction([doc]() { doc->resetEdit(); });
func->singleShot(0);
}
}
else if (press) {
FC_WARN("Release all mouse buttons before exiting editing");
}
break;
default:
// call the virtual method
if (self->keyPressed(press, ke->getKey())) {
node->setHandled();
}
break;
}
}
// switching the mouse buttons
else if (ev->getTypeId().isDerivedFrom(SoMouseButtonEvent::getClassTypeId())) {
const auto event = (const SoMouseButtonEvent*)ev;
const int button = event->getButton();
const SbBool press = event->getState() == SoButtonEvent::DOWN ? true : false;
// call the virtual method
if (self->mouseButtonPressed(button, press, ev->getPosition(), viewer)) {
node->setHandled();
}
}
else if (ev->getTypeId().isDerivedFrom(SoMouseWheelEvent::getClassTypeId())) {
const auto event = (const SoMouseWheelEvent*)ev;
if (self->mouseWheelEvent(event->getDelta(), event->getPosition(), viewer)) {
node->setHandled();
}
}
// Mouse Movement handling
else if (ev->getTypeId().isDerivedFrom(SoLocation2Event::getClassTypeId())) {
if (self->mouseMove(ev->getPosition(), viewer)) {
node->setHandled();
}
}
}
catch (const Base::Exception& e) {
Base::Console().error(
"Unhandled exception in ViewProvider::eventCallback: %s\n"
"(Event type: %s, object type: %s)\n",
e.what(),
ev->getTypeId().getName().getString(),
self->getTypeId().getName()
);
}
catch (const std::exception& e) {
Base::Console().error(
"Unhandled std exception in ViewProvider::eventCallback: %s\n"
"(Event type: %s, object type: %s)\n",
e.what(),
ev->getTypeId().getName().getString(),
self->getTypeId().getName()
);
}
catch (...) {
Base::Console().error(
"Unhandled unknown C++ exception in ViewProvider::eventCallback"
" (Event type: %s, object type: %s)\n",
ev->getTypeId().getName().getString(),
self->getTypeId().getName()
);
}
}
SoSeparator* ViewProvider::getAnnotation()
{
if (!pcAnnotation) {
pcAnnotation = new SoSeparator();
pcAnnotation->ref();
pcRoot->addChild(pcAnnotation);
}
return pcAnnotation;
}
void ViewProvider::update(const App::Property* prop)
{
// Hide the object temporarily to speed up the update
if (!isUpdatesEnabled()) {
return;
}
bool vis = ViewProvider::isShow();
if (vis) {
ViewProvider::hide();
}
updateData(prop);
if (vis) {
ViewProvider::show();
}
}
QIcon ViewProvider::getIcon() const
{
return mergeGreyableOverlayIcons(Gui::BitmapFactory().pixmap(sPixmap));
}
QIcon ViewProvider::mergeGreyableOverlayIcons(const QIcon& orig) const
{
auto vector = getExtensionsDerivedFromType<Gui::ViewProviderExtension>();
QIcon overlayedIcon = orig;
for (Gui::ViewProviderExtension* ext : vector) {
if (!ext->ignoreOverlayIcon()) {
overlayedIcon = ext->extensionMergeGreyableOverlayIcons(overlayedIcon);
}
}
return overlayedIcon;
}
QIcon ViewProvider::mergeColorfulOverlayIcons(const QIcon& orig) const
{
auto vector = getExtensionsDerivedFromType<Gui::ViewProviderExtension>();
QIcon overlayedIcon = orig;
for (Gui::ViewProviderExtension* ext : vector) {
if (!ext->ignoreOverlayIcon()) {
overlayedIcon = ext->extensionMergeColorfullOverlayIcons(overlayedIcon);
}
}
return overlayedIcon;
}
void ViewProvider::setTransformation(const Base::Matrix4D& rcMatrix)
{
pcTransform->setMatrix(convert(rcMatrix));
}
void ViewProvider::setTransformation(const SbMatrix& rcMatrix)
{
pcTransform->setMatrix(rcMatrix);
}
SbMatrix ViewProvider::convert(const Base::Matrix4D& rcMatrix)
{
return Base::convertTo<SbMatrix>(rcMatrix);
}
Base::Matrix4D ViewProvider::convert(const SbMatrix& smat)
{
return Base::convertTo<Base::Matrix4D>(smat);
}
void ViewProvider::addDisplayMaskMode(SoNode* node, const char* type)
{
_sDisplayMaskModes[type] = pcModeSwitch->getNumChildren();
pcModeSwitch->addChild(node);
}
void ViewProvider::setDisplayMaskMode(const char* type)
{
std::map<std::string, int>::const_iterator it = _sDisplayMaskModes.find(type);
if (it != _sDisplayMaskModes.end()) {
_iActualMode = it->second;
}
else {
_iActualMode = -1;
}
setModeSwitch();
}
SoNode* ViewProvider::getDisplayMaskMode(const char* type) const
{
std::map<std::string, int>::const_iterator it = _sDisplayMaskModes.find(type);
if (it != _sDisplayMaskModes.end()) {
return pcModeSwitch->getChild(it->second);
}
return nullptr;
}
std::vector<std::string> ViewProvider::getDisplayMaskModes() const
{
std::vector<std::string> types;
for (const auto& it : _sDisplayMaskModes) {
types.push_back(it.first);
}
return types;
}
/**
* If you add new viewing modes in @ref getDisplayModes() then you need to reimplement
* also seDisplaytMode() to handle these new modes by setting the appropriate display
* mode.
*/
void ViewProvider::setDisplayMode(const char* ModeName)
{
_sCurrentMode = ModeName;
// infom the exteensions
auto vector = getExtensionsDerivedFromType<Gui::ViewProviderExtension>();
for (Gui::ViewProviderExtension* ext : vector) {
ext->extensionSetDisplayMode(ModeName);
}
}
const char* ViewProvider::getDefaultDisplayMode() const
{
return nullptr;
}
vector<std::string> ViewProvider::getDisplayModes() const
{
std::vector<std::string> modes;
auto vector = getExtensionsDerivedFromType<Gui::ViewProviderExtension>();
for (Gui::ViewProviderExtension* ext : vector) {
auto extModes = ext->extensionGetDisplayModes();
modes.insert(modes.end(), extModes.begin(), extModes.end());
}
return modes;
}
std::string ViewProvider::getActiveDisplayMode() const
{
return _sCurrentMode;
}
void ViewProvider::hide()
{
auto exts = getExtensionsDerivedFromType<Gui::ViewProviderExtension>();
if (pcModeSwitch->whichChild.getValue() >= 0) {
pcModeSwitch->whichChild = -1;
for (auto ext : exts) {
ext->extensionModeSwitchChange();
}
}
// tell extensions that we hide
for (Gui::ViewProviderExtension* ext : exts) {
ext->extensionHide();
}
}
void ViewProvider::show()
{
setModeSwitch();
// tell extensions that we show
auto vector = getExtensionsDerivedFromType<Gui::ViewProviderExtension>();
for (Gui::ViewProviderExtension* ext : vector) {
ext->extensionShow();
}
}
bool ViewProvider::isShow() const
{
return pcModeSwitch->whichChild.getValue() != -1;
}
void ViewProvider::setVisible(bool s)
{
s ? show() : hide();
}
bool ViewProvider::isVisible() const
{
return isShow();
}
void ViewProvider::setOverrideMode(const std::string& mode)
{
if (mode == "As Is") {
viewOverrideMode = -1;
overrideMode = mode;
}
else {
std::map<std::string, int>::const_iterator it = _sDisplayMaskModes.find(mode);
if (it == _sDisplayMaskModes.end()) {
return; // view style not supported
}
viewOverrideMode = (*it).second;
overrideMode = mode;
}
if (pcModeSwitch->whichChild.getValue() != -1) {
setModeSwitch();
}
else {
for (auto ext : getExtensionsDerivedFromType<Gui::ViewProviderExtension>()) {
ext->extensionModeSwitchChange();
}
}
}
const string ViewProvider::getOverrideMode()
{
return overrideMode;
}
void ViewProvider::setModeSwitch()
{
if (viewOverrideMode == -1) {
pcModeSwitch->whichChild = _iActualMode;
}
else if (viewOverrideMode < pcModeSwitch->getNumChildren()) {
pcModeSwitch->whichChild = viewOverrideMode;
}
else {
return;
}
for (auto ext : getExtensionsDerivedFromType<Gui::ViewProviderExtension>()) {
ext->extensionModeSwitchChange();
}
}
void ViewProvider::setDefaultMode(int val)
{
_iActualMode = val;
for (auto ext : getExtensionsDerivedFromType<Gui::ViewProviderExtension>()) {
ext->extensionModeSwitchChange();
}
}
int ViewProvider::getDefaultMode() const
{
return viewOverrideMode >= 0 ? viewOverrideMode : _iActualMode;
}
void ViewProvider::onBeforeChange(const App::Property* prop)
{
Application::Instance->signalBeforeChangeObject(*this, *prop);
App::TransactionalObject::onBeforeChange(prop);
}
void ViewProvider::onChanged(const App::Property* prop)
{
Application::Instance->signalChangedObject(*this, *prop);
Application::Instance->updateActions();
App::TransactionalObject::onChanged(prop);
}
std::string ViewProvider::toString() const
{
return SoFCDB::writeNodesToString(pcRoot);
}
PyObject* ViewProvider::getPyObject()
{
if (!pyViewObject) {
pyViewObject = new ViewProviderPy(this);
}
pyViewObject->IncRef();
return pyViewObject;
}
#include <boost/graph/topological_sort.hpp>
namespace Gui
{
using Graph = boost::adjacency_list<
boost::vecS, // class OutEdgeListS : a Sequence or an AssociativeContainer
boost::vecS, // class VertexListS : a Sequence or a RandomAccessContainer
boost::directedS, // class DirectedS : This is a directed graph
boost::no_property, // class VertexProperty:
boost::no_property, // class EdgeProperty:
boost::no_property, // class GraphProperty:
boost::listS // class EdgeListS:
>;
using Vertex = boost::graph_traits<Graph>::vertex_descriptor;
using Edge = boost::graph_traits<Graph>::edge_descriptor;
void addNodes(Graph& graph, std::map<SoNode*, Vertex>& vertexNodeMap, SoNode* node)
{
if (node->getTypeId().isDerivedFrom(SoGroup::getClassTypeId())) {
auto group = static_cast<SoGroup*>(node);
Vertex groupV = vertexNodeMap[group];
for (int i = 0; i < group->getNumChildren(); i++) {
SoNode* child = group->getChild(i);
auto it = vertexNodeMap.find(child);
// the child node is not yet added to the map
if (it == vertexNodeMap.end()) {
Vertex childV = add_vertex(graph);
vertexNodeMap[child] = childV;
add_edge(groupV, childV, graph);
addNodes(graph, vertexNodeMap, child);
}
// the child is already there, only add the edge then
else {
add_edge(groupV, it->second, graph);
}
}
}
}
} // namespace Gui
bool ViewProvider::checkRecursion(SoNode* node)
{
if (node->getTypeId().isDerivedFrom(SoGroup::getClassTypeId())) {
std::list<Vertex> make_order;
Graph graph;
std::map<SoNode*, Vertex> vertexNodeMap;
Vertex groupV = add_vertex(graph);
vertexNodeMap[node] = groupV;
addNodes(graph, vertexNodeMap, node);
try {
boost::topological_sort(graph, std::front_inserter(make_order));
}
catch (const std::exception&) {
return false;
}
}
return true;
}
SoPickedPoint* ViewProvider::getPointOnRay(const SbVec2s& pos, const View3DInventorViewer* viewer) const
{
return viewer->getPointOnRay(pos, this);
}
SoPickedPoint* ViewProvider::getPointOnRay(
const SbVec3f& pos,
const SbVec3f& dir,
const View3DInventorViewer* viewer
) const
{
return viewer->getPointOnRay(pos, dir, this);
}
std::vector<Base::Vector3d> ViewProvider::getModelPoints(const SoPickedPoint* pp) const
{
// the default implementation just returns the picked point from the visual representation
std::vector<Base::Vector3d> pts;
const SbVec3f& vec = pp->getPoint();
pts.emplace_back(vec[0], vec[1], vec[2]);
return pts;
}
bool ViewProvider::keyPressed(bool pressed, int key)
{
(void)pressed;
(void)key;
return false;
}
bool ViewProvider::mouseMove(const SbVec2s& cursorPos, View3DInventorViewer* viewer)
{
(void)cursorPos;
(void)viewer;
return false;
}
bool ViewProvider::mouseButtonPressed(
int button,
bool pressed,
const SbVec2s& cursorPos,
const View3DInventorViewer* viewer
)
{
(void)button;
(void)pressed;
(void)cursorPos;
(void)viewer;
return false;
}
bool ViewProvider::mouseWheelEvent(int delta, const SbVec2s& cursorPos, const View3DInventorViewer* viewer)
{
(void)delta;
(void)cursorPos;
(void)viewer;
return false;
}
void ViewProvider::setupContextMenu(QMenu* menu, QObject* receiver, const char* method)
{
auto vector = getExtensionsDerivedFromType<Gui::ViewProviderExtension>();
for (Gui::ViewProviderExtension* ext : vector) {
ext->extensionSetupContextMenu(menu, receiver, method);
}
}
bool ViewProvider::onDelete(const vector<string>& subNames)
{
bool del = true;
auto vector = getExtensionsDerivedFromType<Gui::ViewProviderExtension>();
for (Gui::ViewProviderExtension* ext : vector) {
del &= ext->extensionOnDelete(subNames);
}
return del;
}
bool ViewProvider::canDelete(App::DocumentObject*) const
{
return false;
}
bool ViewProvider::canDragObject(App::DocumentObject* obj) const
{
auto vector = getExtensionsDerivedFromType<Gui::ViewProviderExtension>();
for (Gui::ViewProviderExtension* ext : vector) {
if (ext->extensionCanDragObject(obj)) {
return true;
}
}
return false;
}
bool ViewProvider::canDragObjectToTarget(
App::DocumentObject* obj,
[[maybe_unused]] App::DocumentObject* target
) const
{
return canDragObject(obj);
}
bool ViewProvider::canDragObjects() const
{
auto vector = getExtensionsDerivedFromType<Gui::ViewProviderExtension>();
for (Gui::ViewProviderExtension* ext : vector) {
if (ext->extensionCanDragObjects()) {
return true;
}
}
return false;
}
void ViewProvider::dragObject(App::DocumentObject* obj)
{
auto vector = getExtensionsDerivedFromType<Gui::ViewProviderExtension>();
for (Gui::ViewProviderExtension* ext : vector) {
if (ext->extensionCanDragObject(obj)) {
ext->extensionDragObject(obj);
return;
}
}
throw Base::RuntimeError(
"ViewProvider::dragObject: no extension for dragging given object available."
);
}
bool ViewProvider::canDropObject(App::DocumentObject* obj) const
{
auto vector = getExtensionsDerivedFromType<Gui::ViewProviderExtension>();
#if FC_DEBUG
Base::Console().log("Check extensions for drop\n");
#endif
for (Gui::ViewProviderExtension* ext : vector) {
#if FC_DEBUG
Base::Console().log("Check extensions %s\n", ext->name().c_str());
#endif
if (ext->extensionCanDropObject(obj)) {
return true;
}
}
return false;
}
bool ViewProvider::canDropObjects() const
{
auto vector = getExtensionsDerivedFromType<Gui::ViewProviderExtension>();
for (Gui::ViewProviderExtension* ext : vector) {
if (ext->extensionCanDropObjects()) {
return true;
}
}
return false;
}
bool ViewProvider::canDragAndDropObject(App::DocumentObject* obj) const
{
auto vector = getExtensionsDerivedFromType<Gui::ViewProviderExtension>();
for (Gui::ViewProviderExtension* ext : vector) {
if (ext->extensionCanDragAndDropObject(obj)) {
return true;
}
}
return false;
}
void ViewProvider::dropObject(App::DocumentObject* obj)
{
auto vector = getExtensionsDerivedFromType<Gui::ViewProviderExtension>();
for (Gui::ViewProviderExtension* ext : vector) {
if (ext->extensionCanDropObject(obj)) {
ext->extensionDropObject(obj);
break;
}
}
}
bool ViewProvider::canDropObjectEx(
App::DocumentObject* obj,
App::DocumentObject* owner,
const char* subname,
const std::vector<std::string>& elements
) const
{
auto vector = getExtensionsDerivedFromType<Gui::ViewProviderExtension>();
for (Gui::ViewProviderExtension* ext : vector) {
if (ext->extensionCanDropObjectEx(obj, owner, subname, elements)) {
return true;
}
}
return canDropObject(obj);
}
std::string ViewProvider::dropObjectEx(
App::DocumentObject* obj,
App::DocumentObject* owner,
const char* subname,
const std::vector<std::string>& elements
)
{
auto vector = getExtensionsDerivedFromType<Gui::ViewProviderExtension>();
for (Gui::ViewProviderExtension* ext : vector) {
if (ext->extensionCanDropObjectEx(obj, owner, subname, elements)) {
return ext->extensionDropObjectEx(obj, owner, subname, elements);
}
}
dropObject(obj);
return {};
}
int ViewProvider::replaceObject(App::DocumentObject* oldValue, App::DocumentObject* newValue)
{
auto vector = getExtensionsDerivedFromType<Gui::ViewProviderExtension>();
for (Gui::ViewProviderExtension* ext : vector) {
if (ext->extensionCanDropObject(newValue)) {
int ret = ext->extensionReplaceObject(oldValue, newValue);
if (ret >= 0) {
return !!ret;
}
}
}
return -1;
}
void ViewProvider::Restore(Base::XMLReader& reader)
{
// Because some PropertyLists type properties are stored in a separate file,
// and is thus restored outside this function. So we rely on Gui::Document
// to set the isRestoring flags for us.
//
// setStatus(Gui::isRestoring, true);
TransactionalObject::Restore(reader);
// setStatus(Gui::isRestoring, false);
}
void ViewProvider::updateData(const App::Property* prop)
{
auto vector = getExtensionsDerivedFromType<Gui::ViewProviderExtension>();
for (Gui::ViewProviderExtension* ext : vector) {
ext->extensionUpdateData(prop);
}
}
SoSeparator* ViewProvider::getBackRoot() const
{
auto vector = getExtensionsDerivedFromType<Gui::ViewProviderExtension>();
for (Gui::ViewProviderExtension* ext : vector) {
auto* node = ext->extensionGetBackRoot();
if (node) {
return node;
}
}
return nullptr;
}
SoGroup* ViewProvider::getChildRoot() const
{
auto vector = getExtensionsDerivedFromType<Gui::ViewProviderExtension>();
for (Gui::ViewProviderExtension* ext : vector) {
auto* node = ext->extensionGetChildRoot();
if (node) {
return node;
}
}
return nullptr;
}
SoSeparator* ViewProvider::getFrontRoot() const
{
auto vector = getExtensionsDerivedFromType<Gui::ViewProviderExtension>();
for (Gui::ViewProviderExtension* ext : vector) {
auto* node = ext->extensionGetFrontRoot();
if (node) {
return node;
}
}
return nullptr;
}
std::vector<App::DocumentObject*> ViewProvider::claimChildren() const
{
std::vector<App::DocumentObject*> vec;
auto vector = getExtensionsDerivedFromType<Gui::ViewProviderExtension>();
for (Gui::ViewProviderExtension* ext : vector) {
std::vector<App::DocumentObject*> nvec = ext->extensionClaimChildren();
if (!nvec.empty()) {
vec.insert(std::end(vec), std::begin(nvec), std::end(nvec));
}
}
return vec;
}
std::vector<App::DocumentObject*> ViewProvider::claimChildrenRecursive() const
{
std::vector<App::DocumentObject*> children = claimChildren();
for (auto* child : claimChildren()) {
auto* vp = Application::Instance->getViewProvider(child);
if (!vp) {
continue;
}
std::vector<App::DocumentObject*> nvec = vp->claimChildrenRecursive();
if (!nvec.empty()) {
children.insert(std::end(children), std::begin(nvec), std::end(nvec));
}
}
return children;
}
std::vector<App::DocumentObject*> ViewProvider::claimChildren3D() const
{
std::vector<App::DocumentObject*> vec;
auto vector = getExtensionsDerivedFromType<Gui::ViewProviderExtension>();
for (Gui::ViewProviderExtension* ext : vector) {
std::vector<App::DocumentObject*> nvec = ext->extensionClaimChildren3D();
if (!nvec.empty()) {
vec.insert(std::end(vec), std::begin(nvec), std::end(nvec));
}
}
return vec;
}
bool ViewProvider::getElementPicked(const SoPickedPoint* pp, std::string& subname) const
{
auto vector = getExtensionsDerivedFromType<Gui::ViewProviderExtension>();
for (Gui::ViewProviderExtension* ext : vector) {
if (ext->extensionGetElementPicked(pp, subname)) {
return true;
}
}
subname = getElement(pp ? pp->getDetail() : nullptr);
return true;
}
bool ViewProvider::getDetailPath(const char* subname, SoFullPath* pPath, bool append, SoDetail*& det) const
{
if (pcRoot->findChild(pcModeSwitch) < 0) {
// this is possible in case of editing, where the switch node
// of the linked view object is temporarily removed from its root
// if(append)
// pPath->append(pcRoot);
return false;
}
if (append) {
pPath->append(pcRoot);
pPath->append(pcModeSwitch);
}
auto vector = getExtensionsDerivedFromType<Gui::ViewProviderExtension>();
for (Gui::ViewProviderExtension* ext : vector) {
if (ext->extensionGetDetailPath(subname, pPath, det)) {
return true;
}
}
det = getDetail(subname);
return true;
}
const std::string& ViewProvider::hiddenMarker()
{
return App::DocumentObject::hiddenMarker();
}
const char* ViewProvider::hasHiddenMarker(const char* subname)
{
return App::DocumentObject::hasHiddenMarker(subname);
}
int ViewProvider::partialRender(const std::vector<std::string>& elements, bool clear)
{
if (elements.empty()) {
auto node = pcModeSwitch->getChild(_iActualMode);
if (node) {
FC_LOG("partial render clear");
SoSelectionElementAction action(SoSelectionElementAction::None, true);
action.apply(node);
}
}
int count = 0;
auto path = static_cast<SoFullPath*>(new SoPath);
path->ref();
SoSelectionElementAction action;
action.setSecondary(true);
for (auto element : elements) {
bool hidden = hasHiddenMarker(element.c_str());
if (hidden) {
element.resize(element.size() - hiddenMarker().size());
}
path->truncate(0);
SoDetail* det = nullptr;
if (getDetailPath(element.c_str(), path, false, det)) {
if (!hidden && !det) {
FC_LOG("partial render element not found: " << element);
continue;
}
FC_LOG("partial render (" << path->getLength() << "): " << element);
if (!hidden) {
action.setType(
clear ? SoSelectionElementAction::Remove : SoSelectionElementAction::Append
);
}
else {
action.setType(clear ? SoSelectionElementAction::Show : SoSelectionElementAction::Hide);
}
action.setElement(det);
action.apply(path);
++count;
}
delete det;
}
path->unref();
return count;
}
bool ViewProvider::useNewSelectionModel() const
{
return ViewParams::instance()->getUseNewSelection();
}
void ViewProvider::beforeDelete()
{
auto vector = getExtensionsDerivedFromType<Gui::ViewProviderExtension>();
for (Gui::ViewProviderExtension* ext : vector) {
ext->extensionBeforeDelete();
}
}
void ViewProvider::setRenderCacheMode(int mode)
{
pcRoot->renderCaching = mode == 0 ? SoSeparator::AUTO
: (mode == 1 ? SoSeparator::ON : SoSeparator::OFF);
}
Base::BoundBox3d ViewProvider::getBoundingBox(const char* subname, bool transform, MDIView* view) const
{
if (!pcRoot || !pcModeSwitch || pcRoot->findChild(pcModeSwitch) < 0) {
return Base::BoundBox3d();
}
if (!view) {
view = Application::Instance->activeView();
}
auto iview = qobject_cast<View3DInventor*>(view);
if (!iview) {
auto doc = Application::Instance->activeDocument();
if (doc) {
auto views = doc->getMDIViewsOfType(View3DInventor::getClassTypeId());
if (!views.empty()) {
iview = qobject_cast<View3DInventor*>(views.front());
}
}
if (!iview) {
FC_ERR("no view");
return Base::BoundBox3d();
}
}
View3DInventorViewer* viewer = iview->getViewer();
SoGetBoundingBoxAction bboxAction(viewer->getSoRenderManager()->getViewportRegion());
auto mode = pcModeSwitch->whichChild.getValue();
if (mode < 0) {
pcModeSwitch->whichChild = getDefaultMode();
}
SoTempPath path(20);
path.ref();
if (!Base::Tools::isNullOrEmpty(subname)) {
SoDetail* det = nullptr;
if (!getDetailPath(subname, &path, true, det)) {
if (mode < 0) {
pcModeSwitch->whichChild = mode;
}
path.unrefNoDelete();
return Base::BoundBox3d();
}
delete det;
}
SoTempPath resetPath(3);
resetPath.ref();
if (!transform) {
resetPath.append(pcRoot);
resetPath.append(pcModeSwitch);
bboxAction.setResetPath(&resetPath, true, SoGetBoundingBoxAction::TRANSFORM);
}
if (path.getLength()) {
bboxAction.apply(&path);
}
else {
bboxAction.apply(pcRoot);
}
if (mode < 0) {
pcModeSwitch->whichChild = mode;
}
resetPath.unrefNoDelete();
path.unrefNoDelete();
auto bbox = bboxAction.getBoundingBox();
float minX, minY, minZ, maxX, maxY, maxZ;
bbox.getMax().getValue(maxX, maxY, maxZ);
bbox.getMin().getValue(minX, minY, minZ);
return Base::BoundBox3d(minX, minY, minZ, maxX, maxY, maxZ);
}
bool ViewProvider::isLinkVisible() const
{
auto ext = getExtensionByType<ViewProviderLinkObserver>(true);
if (!ext) {
return true;
}
return ext->isLinkVisible();
}
void ViewProvider::setLinkVisible(bool visible)
{
auto ext = getExtensionByType<ViewProviderLinkObserver>(true);
if (ext) {
ext->setLinkVisible(visible);
}
}
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