You cannot select more than 25 topics Topics must start with a letter or number, can include dashes ('-') and can be up to 35 characters long.
AppFlow/GUIWidget/TreeWidget.cpp

528 lines
24 KiB
C++

#include "TreeWidget.h"
#include "CompTreeItem.h"
#include "GUIFrame/MainWindow.h"
#include "GUIFrame/PropertyWidget.h"
#include "GUIFrame/MainTreeWidget.h"
#include "OperatorsInterface/GraphEventOperator.h"
#include "OperatorsInterface/TreeEventOperator.h"
#include "FITK_Kernel/FITKAppFramework/FITKAppFramework.h"
#include "FITK_Kernel/FITKAppFramework/FITKGlobalData.h"
#include "FITK_Kernel/FITKCore/FITKOperatorRepo.h"
#include "FITK_Kernel/FITKCore/FITKActionOperator.h"
#include "FITK_Interface/FITKInterfaceFlowOF/FITKOFGeometryData.h"
#include "FITK_Interface/FITKInterfaceFlowOF/FITKOFEnum.hpp"
#include "FITK_Interface/FITKInterfaceFlowOF/FITKAbstractOFSolver.h"
#include "FITK_Interface/FITKInterfaceFlowOF/FITKOFPhysicsData.h"
#include "FITK_Interface/FITKInterfaceFlowOF/FITKOFBoundary.h"
#include "FITK_Interface/FITKInterfaceGeometry/FITKAbsGeoCommand.h"
#include "FITK_Interface/FITKInterfaceModel/FITKAbstractGeoModel.h"
#include "FITK_Interface/FITKInterfaceMeshGen/FITKMeshGenInterface.h"
#include "FITK_Interface/FITKInterfaceMeshGen/FITKAbstractGeometryMeshSizeGenerator.h"
#include "FITK_Interface/FITKInterfaceMeshGen/FITKGeometryMeshSize.h"
#include "FITK_Interface/FITKInterfaceMesh/FITKUnstructuredFluidMeshVTK.h"
#include "FITK_Interface/FITKInterfaceMesh/FITKUnstructuredMeshVTK.h"
#include <QMenu>
#include <QStandardItemModel>
#include <QTreeView>
#include <QTreeWidgetItem>
#include <QHeaderView>
#include <QDebug>
Q_DECLARE_METATYPE(GUI::MainTreeEnum)
namespace GUI{
// TreeWidget类构造函数
TreeWidget::TreeWidget(QWidget* parent) :
QTreeWidget(parent)
{
//右键 不可少否则右键无反应
setContextMenuPolicy(Qt::CustomContextMenu);
connect(this, SIGNAL(itemClicked(QTreeWidgetItem*, int)), this, SLOT(onItemClicked(QTreeWidgetItem*, int)));
connect(this, SIGNAL(customContextMenuRequested(QPoint)), this, SLOT(onModelCustomContextMenu(QPoint)));
//隐藏列标题
setHeaderHidden(true);
}
// TreeWidget类析构函数
TreeWidget::~TreeWidget()
{
}
// 更新所有模型案例树方法
void TreeWidget::updateTree()
{
this->clear();
updateGeometryItems();
updateMeshItems();
updateSetupItems();
updateRunItems();
updatePostItems();
//展开全部子集
setItemsExpandable(true);
expandAll();
QList<CompTreeItem*> compWidgets = this->findChildren<CompTreeItem*>();
for (auto widget : compWidgets) {
if (widget == nullptr)continue;
connect(widget, SIGNAL(sigIconButtonClicked()), this, SLOT(soltIconButtonClicked()));
}
}
void TreeWidget::onItemClicked(QTreeWidgetItem * item, int column)
{
EventOper::TreeEventOperator* treeOper = Core::FITKOperatorRepo::getInstance()->getOperatorT<EventOper::TreeEventOperator>("ModelTreeEvent");
if (treeOper == nullptr) return;
EventOper::GraphEventOperator* graphOper = FITKOPERREPO->getOperatorT<EventOper::GraphEventOperator>("GraphPreprocess");
if (graphOper == nullptr)return;
graphOper->clearHighlight();
if (item == nullptr)return;
int objID = item->data(1, 0).toInt();
GUI::MainTreeEnum treeType = item->data(2, 0).value<GUI::MainTreeEnum>();
Interface::FITKGeoEnum::FITKGeometryComType geometryType = item->data(3, 0).value<Interface::FITKGeoEnum::FITKGeometryComType>();
QString name = "";
switch (treeType) {
case GUI::MainTreeEnum::MainTree_Geomety: break;
case GUI::MainTreeEnum::MainTree_GeometyBoxItem:name = "actionGeoCubeEdit"; break;
case GUI::MainTreeEnum::MainTree_GeometyCylinderItem:name = "actionGeoCylinderEdit"; break;
case GUI::MainTreeEnum::MainTree_GeometySphereItem:name = "actionGeoSphereEdit"; break;
case GUI::MainTreeEnum::MainTree_GeometyBoolOrImportItem:name = "actionGeoBoolOrImportEdit"; break;
case GUI::MainTreeEnum::MainTree_Mesh: break;
case GUI::MainTreeEnum::MainTree_MeshGeometry:name = "actionMeshGeoEdit"; break;
case GUI::MainTreeEnum::MainTree_MeshBase: name = "actionMeshBaseEdit"; break;
case GUI::MainTreeEnum::MainTree_MeshLocal: name = "actionMeshLocalSelectGroup"; break;
case GUI::MainTreeEnum::MainTree_MeshLocalItem:name = "actionMeshLocalEdit"; break;
case GUI::MainTreeEnum::MainTree_MeshPoint:name = "actionMeshPointEdit"; break;
case GUI::MainTreeEnum::MainTree_MeshBoundary:break;
case GUI::MainTreeEnum::MainTree_MeshBoundaryItem: {
graphOper->highlight(objID);
break;
}
case GUI::MainTreeEnum::MainTree_Setup:name = "actionSetupEdit"; break;
case GUI::MainTreeEnum::MainTree_SetupTurbulence:name = "actionTurbulenceEdit"; break;
case GUI::MainTreeEnum::MainTree_SetupTransportProperties:name = "actionTransportEdit"; break;
case GUI::MainTreeEnum::MainTree_SetupDiscretization:name = "actionDiscretizationEdit"; break;
case GUI::MainTreeEnum::MainTree_SetupSolution:name = "actionSolutionEdit"; break;
case GUI::MainTreeEnum::MainTree_SetupPassiveScalars:name = "actionPassiveScalarsEdit"; break;
case GUI::MainTreeEnum::MainTree_SetupOperatingConditions:name = "actionOperConditionEdit"; break;
case GUI::MainTreeEnum::MainTree_SetupCellZones:name = "actionCellZonesEdit"; break;
case GUI::MainTreeEnum::MainTree_SetupBoundaryConditionsItem:name = "actionBoundaryConditionsEdit"; break;
case GUI::MainTreeEnum::MainTree_SetupInitialConditions:name = "actionInitialEdit"; break;
case GUI::MainTreeEnum::MainTree_SetupMonitors:name = "actionMonitorsEdit"; break;
case GUI::MainTreeEnum::MainTree_Run:name = "actionRun"; break;
case GUI::MainTreeEnum::MainTree_Post:name = "actionPost"; break;
}
if (!name.isEmpty()) {
QObject sender;
sender.setObjectName(name);
auto acOper = Core::FITKOperatorRepo::getInstance()->getOperatorT<Core::FITKActionOperator>(name);
if (acOper == nullptr)return;
acOper->setEmitter(&sender);
acOper->setArgs("objID", objID);
acOper->actionTriggered();
}
else {
treeOper->moveProcessToStep(0);
}
}
void TreeWidget::onDoubleClicked(QTreeWidgetItem * item, int column)
{
if (item == nullptr)return;
int objID = item->data(1, 0).toInt();
GUI::MainTreeEnum treeType = item->data(2, 0).value<GUI::MainTreeEnum>();
Interface::FITKGeoEnum::FITKGeometryComType geometryType = item->data(3, 0).value<Interface::FITKGeoEnum::FITKGeometryComType>();
}
void TreeWidget::onModelCustomContextMenu(QPoint point)
{
QTreeWidgetItem* item = this->currentItem();
if (item == nullptr)return;
int objID = item->data(1, 0).toInt();
GUI::MainTreeEnum treeType = item->data(2, 0).value<GUI::MainTreeEnum>();
Interface::FITKGeoEnum::FITKGeometryComType geometryType = item->data(3, 0).value<Interface::FITKGeoEnum::FITKGeometryComType>();
QMenu menu;
switch (treeType) {
case GUI::MainTreeEnum::MainTree_Geomety: break;
case GUI::MainTreeEnum::MainTree_GeometyBoxItem: {
//addMenuActions(menu, "actionRenameCube", "Cube rename");
addMenuActions(menu, "actionGeoCubeDelete", tr("Delete"));
break;
}
case GUI::MainTreeEnum::MainTree_GeometyCylinderItem: {
//addMenuActions(menu, "actionRenameCylinder", "Cylinder rename");
addMenuActions(menu, "actionGeoCylinderDelete", tr("Delete"));
break;
}
case GUI::MainTreeEnum::MainTree_GeometySphereItem: {
//addMenuActions(menu, "actionRenameSphere", "Sphere rename");
addMenuActions(menu, "actionGeoSphereDelete", tr("Delete"));
break;
}
case GUI::MainTreeEnum::MainTree_GeometyBoolOrImportItem: {
//addMenuActions(menu, "actionRenameSphere", "Sphere rename");
addMenuActions(menu, "actionGeoBoolOrImportDelete", tr("Delete"));
break;
}
case GUI::MainTreeEnum::MainTree_Mesh: {
addMenuActions(menu, "actionClearMesh", tr("Clear mesh"));
break;
}
case GUI::MainTreeEnum::MainTree_MeshGeometry: break;
case GUI::MainTreeEnum::MainTree_MeshBase: break;
case GUI::MainTreeEnum::MainTree_MeshLocal: {
break;
}
case GUI::MainTreeEnum::MainTree_MeshLocalItem: {
addMenuActions(menu, "actionMeshLocalDelete", tr("Delete"));
break;
}
case GUI::MainTreeEnum::MainTree_SetupBoundaryConditions: {
addMenuActions(menu, "actionBoundaryConditionsCreate", tr("Create"));
break;
}
case GUI::MainTreeEnum::MainTree_SetupBoundaryConditionsItem: {
addMenuActions(menu, "actionBoundaryConditionsDelete", tr("Delete"));
break;
}
}
if (menu.actions().size() == 0) return;
// 在鼠标点击位置执行上下文菜单
menu.exec(QCursor::pos());
}
void TreeWidget::acitonClicked()
{
QTreeWidgetItem* item = this->currentItem();
if (item == nullptr)return;
int objID = item->data(1, 0).toInt();
QObject* senderObject = sender();
if (senderObject == nullptr)return;
auto acOper = Core::FITKOperatorRepo::getInstance()->getOperatorT<Core::FITKActionOperator>(senderObject->objectName());
if (acOper == nullptr)return;
acOper->setEmitter(senderObject);
acOper->setArgs("objID", objID);
acOper->actionTriggered();
}
void TreeWidget::soltIconButtonClicked()
{
EventOper::GraphEventOperator* graphOper = FITKOPERREPO->getOperatorT<EventOper::GraphEventOperator>("GraphPreprocess");
if (graphOper == nullptr)return;
CompTreeItem* senderWidget = dynamic_cast<CompTreeItem*>(this->sender());
if (senderWidget == nullptr)return;
QTreeWidgetItem* item = senderWidget->getTreeItem();
if (item == nullptr)return;
int objID = item->data(1, 0).toInt();
GUI::MainTreeEnum type = item->data(2, 0).value<GUI::MainTreeEnum>();
switch (type){
case GUI::MainTreeEnum::MainTree_GeometyBoxItem:
case GUI::MainTreeEnum::MainTree_GeometyCylinderItem:
case GUI::MainTreeEnum::MainTree_GeometySphereItem:
case GUI::MainTreeEnum::MainTree_GeometyBoolOrImportItem:
{
//几何显示隐藏控制
Interface::FITKGeoCommandList* geometryData = FITKAPP->getGlobalData()->getGeometryData<Interface::FITKGeoCommandList>();
if (geometryData == nullptr) break;
auto geoObj = geometryData->getDataByID(objID);
if(geoObj == nullptr)break;
if (geoObj->isEnable()){
geoObj->enable(false);
senderWidget->setButtonIcon(QApplication::style()->standardIcon(QStyle::SP_DialogCancelButton));
}
else {
geoObj->enable(true);
senderWidget->setButtonIcon(QApplication::style()->standardIcon(QStyle::SP_DialogApplyButton));
}
break;
}
case GUI::MainTreeEnum::MainTree_MeshBoundaryItem:
{
//边界显示隐藏控制
auto globalData = FITKAPP->getGlobalData();
if (globalData == nullptr)break;
Interface::FITKUnstructuredFluidMeshVTK* meshData = globalData->getMeshData< Interface::FITKUnstructuredFluidMeshVTK>();
if (meshData == nullptr)break;
Interface::FITKBoundaryMeshVTKManager* boundMeshManager = meshData->getBoundaryMeshManager();
if (boundMeshManager == nullptr)break;
Interface::FITKBoundaryMeshVTK* boundMesh = boundMeshManager->getDataByID(objID);
if (boundMesh == nullptr)break;
if (boundMesh->FITKAbstractNDataObject::isEnable()) {
boundMesh->FITKAbstractNDataObject::enable(false);
senderWidget->setButtonIcon(QApplication::style()->standardIcon(QStyle::SP_DialogCancelButton));
}
else {
boundMesh->FITKAbstractNDataObject::enable(true);
senderWidget->setButtonIcon(QApplication::style()->standardIcon(QStyle::SP_DialogApplyButton));
}
break;
}
}
graphOper->updateGraph(objID);
graphOper->reRender(true);
}
void TreeWidget::updateGeometryItems()
{
Interface::FITKOFGeometryData* geometryData = FITKAPP->getGlobalData()->getGeometryData<Interface::FITKOFGeometryData>();
if (geometryData == nullptr) return;
QTreeWidgetItem* geometryItem = new QTreeWidgetItem();
geometryItem->setText(0, tr("Geometry"));
this->addTopLevelItem(geometryItem);
for (int i = 0; i < geometryData->getDataCount(); i++) {
auto geometryObj = dynamic_cast<Interface::FITKAbsGeoCommand*>(geometryData->getDataByIndex(i));
if (geometryObj == nullptr)continue;
QTreeWidgetItem* item = new QTreeWidgetItem();
//item->setText(0, geometryObj->getDataObjectName());
item->setData(1, 0, geometryObj->getDataObjectID());
GUI::MainTreeEnum treeType = GUI::MainTreeEnum::MainTree_None;
Interface::FITKGeoEnum::FITKGeometryComType geometryType = geometryObj->getGeometryCommandType();
switch (geometryType) {
case Interface::FITKGeoEnum::FGTNone:break;
case Interface::FITKGeoEnum::FGTBox: treeType = GUI::MainTreeEnum::MainTree_GeometyBoxItem; break;
case Interface::FITKGeoEnum::FGTCylinder:treeType = GUI::MainTreeEnum::MainTree_GeometyCylinderItem; break;
case Interface::FITKGeoEnum::FGTSphere:treeType = GUI::MainTreeEnum::MainTree_GeometySphereItem; break;
case Interface::FITKGeoEnum::FGTBool:treeType = GUI::MainTreeEnum::MainTree_GeometyBoolOrImportItem; break;
case Interface::FITKGeoEnum::FGTImport:treeType = GUI::MainTreeEnum::MainTree_GeometyBoolOrImportItem; break;
}
item->setData(2, 0, QVariant::fromValue(treeType));
geometryItem->addChild(item);
CompTreeItem* widget = new CompTreeItem(item, this);
if (geometryObj->isEnable()) {
widget->setButtonIcon(QApplication::style()->standardIcon(QStyle::SP_DialogApplyButton));
}
else {
widget->setButtonIcon(QApplication::style()->standardIcon(QStyle::SP_DialogCancelButton));
}
widget->setText(geometryObj->getDataObjectName());
this->setItemWidget(item, 0, widget);
}
}
void TreeWidget::updateMeshItems()
{
QTreeWidgetItem* meshItem = new QTreeWidgetItem();
meshItem->setText(0, tr("Mesh"));
meshItem->setData(1, 0, -1);
meshItem->setData(2, 0, QVariant::fromValue(GUI::MainTreeEnum::MainTree_Mesh));
this->addTopLevelItem(meshItem);
QTreeWidgetItem* meshGeoItem = new QTreeWidgetItem();
meshGeoItem->setText(0, tr("Geometry"));
meshGeoItem->setData(1, 0, -1);
meshGeoItem->setData(2, 0, QVariant::fromValue(GUI::MainTreeEnum::MainTree_MeshGeometry));
meshItem->addChild(meshGeoItem);
QTreeWidgetItem* meshBaseItem = new QTreeWidgetItem();
meshBaseItem->setText(0, tr("Base"));
meshBaseItem->setData(1, 0, -1);
meshBaseItem->setData(2, 0, QVariant::fromValue(GUI::MainTreeEnum::MainTree_MeshBase));
meshItem->addChild(meshBaseItem);
QTreeWidgetItem* localBaseItem = new QTreeWidgetItem();
localBaseItem->setText(0, tr("Local"));
localBaseItem->setData(1, 0, -1);
localBaseItem->setData(2, 0, QVariant::fromValue(GUI::MainTreeEnum::MainTree_MeshLocal));
meshItem->addChild(localBaseItem);
QTreeWidgetItem* pointBaseItem = new QTreeWidgetItem();
pointBaseItem->setText(0, tr("Points"));
pointBaseItem->setData(1, 0, -1);
pointBaseItem->setData(2, 0, QVariant::fromValue(GUI::MainTreeEnum::MainTree_MeshPoint));
meshItem->addChild(pointBaseItem);
QTreeWidgetItem* meshBoundItem = new QTreeWidgetItem();
meshBoundItem->setText(0, tr("Boundary"));
meshBoundItem->setData(1, 0, -1);
meshBoundItem->setData(2, 0, QVariant::fromValue(GUI::MainTreeEnum::MainTree_MeshBoundary));
meshItem->addChild(meshBoundItem);
//update sub item
updateMeshLocalItems(localBaseItem);
updateMeshBoundaryItems(meshBoundItem);
}
void TreeWidget::updateSetupItems()
{
QTreeWidgetItem* setupItem = new QTreeWidgetItem();
setupItem->setText(0, tr("Setup"));
setupItem->setData(1, 0, -1);
setupItem->setData(2, 0, QVariant::fromValue(GUI::MainTreeEnum::MainTree_Setup));
this->addTopLevelItem(setupItem);
Interface::FITKOFPhysicsData* physicsData = FITKAPP->getGlobalData()->getPhysicsData<Interface::FITKOFPhysicsData>();
if (physicsData == nullptr)return;
Interface::FITKAbstractOFSolver* solverData = physicsData->getSolver();
if (solverData == nullptr)return;
QTreeWidgetItem* item = nullptr;
if (physicsData->isEnableTurbulenceEqu()) {
item = new QTreeWidgetItem();
item->setText(0, tr("Turbulence"));
item->setData(1, 0, -1);
item->setData(2, 0, QVariant::fromValue(GUI::MainTreeEnum::MainTree_SetupTurbulence));
setupItem->addChild(item);
}
if (physicsData->getTransportProp()) {
item = new QTreeWidgetItem();
item->setText(0, tr("Transport Properties"));
item->setData(1, 0, -1);
item->setData(2, 0, QVariant::fromValue(GUI::MainTreeEnum::MainTree_SetupTransportProperties));
setupItem->addChild(item);
}
if (physicsData->getDiscretization()) {
item = new QTreeWidgetItem();
item->setText(0, tr("Discretization"));
item->setData(1, 0, -1);
item->setData(2, 0, QVariant::fromValue(GUI::MainTreeEnum::MainTree_SetupDiscretization));
setupItem->addChild(item);
}
if (physicsData->getSolution()) {
item = new QTreeWidgetItem();
item->setText(0, tr("Solution"));
item->setData(1, 0, -1);
item->setData(2, 0, QVariant::fromValue(GUI::MainTreeEnum::MainTree_SetupSolution));
setupItem->addChild(item);
}
if (physicsData->getOperatingConditions()) {
item = new QTreeWidgetItem();
item->setText(0, tr("Operating Conditions"));
item->setData(1, 0, -1);
item->setData(2, 0, QVariant::fromValue(GUI::MainTreeEnum::MainTree_SetupOperatingConditions));
setupItem->addChild(item);
}
item = new QTreeWidgetItem();
item->setText(0, tr("Boundary Conditions"));
item->setData(1, 0, -1);
item->setData(2, 0, QVariant::fromValue(GUI::MainTreeEnum::MainTree_SetupBoundaryConditions));
setupItem->addChild(item);
for (int i = 0; i < physicsData->getBoundaryManager()->getDataCount(); i++) {
auto boundary = physicsData->getBoundaryManager()->getDataByIndex(i);
if (boundary == nullptr)continue;
QTreeWidgetItem* bitem = new QTreeWidgetItem();
bitem->setText(0, boundary->getDataObjectName());
bitem->setData(1, 0, boundary->getDataObjectID());
bitem->setData(2, 0, QVariant::fromValue(GUI::MainTreeEnum::MainTree_SetupBoundaryConditionsItem));
item->addChild(bitem);
}
if (physicsData->getInitialConditions()) {
item = new QTreeWidgetItem();
item->setText(0, tr("Initial Conditions"));
item->setData(1, 0, -1);
item->setData(2, 0, QVariant::fromValue(GUI::MainTreeEnum::MainTree_SetupInitialConditions));
setupItem->addChild(item);
}
}
void TreeWidget::updateRunItems()
{
Interface::FITKOFPhysicsData* physicsData = FITKAPP->getGlobalData()->getPhysicsData<Interface::FITKOFPhysicsData>();
if (physicsData == nullptr)return;
Interface::FITKAbstractOFSolver* solverData = physicsData->getSolver();
if (solverData == nullptr)return;
QTreeWidgetItem* runItem = new QTreeWidgetItem();
runItem->setText(0, tr("Run"));
runItem->setData(1, 0, -1);
runItem->setData(2, 0, QVariant::fromValue(GUI::MainTreeEnum::MainTree_Run));
this->addTopLevelItem(runItem);
}
void TreeWidget::updatePostItems()
{
QTreeWidgetItem* postItem = new QTreeWidgetItem();
postItem->setText(0, tr("Post"));
postItem->setData(1, 0, -1);
postItem->setData(2, 0, QVariant::fromValue(GUI::MainTreeEnum::MainTree_Post));
this->addTopLevelItem(postItem);
}
void TreeWidget::updateMeshLocalItems(QTreeWidgetItem* parentItem)
{
Interface::FITKMeshGenInterface* genInterface = Interface::FITKMeshGenInterface::getInstance();
Interface::FITKAbstractGeometryMeshSizeGenerator* generator = genInterface->getGeometryMeshSizeGenerator();
if (generator == nullptr)return;
Interface::FITKGeometryMeshSizeManager* manger = genInterface->getGeometryMeshSizeManager();
if (manger == nullptr)return;
for (int i = 0; i < manger->getDataCount(); i++) {
Interface::FITKGeometryMeshSize* geoMeshSize = manger->getDataByIndex(i);
if (geoMeshSize == nullptr)continue;
QTreeWidgetItem* item = new QTreeWidgetItem();
item->setText(0, geoMeshSize->getDataObjectName());
item->setData(1, 0, geoMeshSize->getDataObjectID());
item->setData(2, 0, QVariant::fromValue(GUI::MainTreeEnum::MainTree_MeshLocalItem));
parentItem->addChild(item);
}
}
void TreeWidget::updateMeshBoundaryItems(QTreeWidgetItem * parentItem)
{
auto globalData = FITKAPP->getGlobalData();
if (globalData == nullptr)return;
Interface::FITKUnstructuredFluidMeshVTK* meshData = globalData->getMeshData< Interface::FITKUnstructuredFluidMeshVTK>();
if (meshData == nullptr)return;
Interface::FITKBoundaryMeshVTKManager* boundMeshManager = meshData->getBoundaryMeshManager();
if (boundMeshManager == nullptr)return;
for (int i = 0; i < boundMeshManager->getDataCount(); i++) {
Interface::FITKBoundaryMeshVTK* boundMesh = boundMeshManager->getDataByIndex(i);
if (boundMesh == nullptr)continue;
QTreeWidgetItem* item = new QTreeWidgetItem();
item->setData(1, 0, boundMesh->getDataObjectID());
item->setData(2, 0, QVariant::fromValue(GUI::MainTreeEnum::MainTree_MeshBoundaryItem));
parentItem->addChild(item);
CompTreeItem* widget = new CompTreeItem(item, this);
if (boundMesh->FITKAbstractNDataObject::isEnable()) {
widget->setButtonIcon(QApplication::style()->standardIcon(QStyle::SP_DialogApplyButton));
}
else {
widget->setButtonIcon(QApplication::style()->standardIcon(QStyle::SP_DialogCancelButton));
}
widget->setText(boundMesh->getDataObjectName());
this->setItemWidget(item, 0, widget);
}
}
void TreeWidget::addMenuActions(QMenu & menu, QString actions, QString objectName)
{
auto act = menu.addAction(objectName); // 添加动作
act->setObjectName(actions);
connect(act, SIGNAL(triggered()), this, SLOT(acitonClicked()));
}
} // namespace GUIOper