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9d45d40ec5c3048784b7708126531e373677677b
create/src/Mod/Fem/Gui/TaskFemConstraintDisplacement.cpp
Uwe 9d45d40ec5 [FEM] use std::unique_ptr for all dialog objects 
- also fix too long line
- also further clang automatic code style changes
2023-03-22 20:08:13 +01:00

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/***************************************************************************
* Copyright (c) 2015, 2023 FreeCAD Developers *
* Authors: Michael Hindley <hindlemp@eskom.co.za> *
* Ruan Olwagen <olwager@eskom.co.za> *
* Oswald van Ginkel <vginkeo@eskom.co.za> *
* Uwe Stöhr <uwestoehr@lyx.org> *
* Based on Force constraint by Jan Rheinländer *
* This file is part of the FreeCAD CAx development system. *
* *
* This library is free software; you can redistribute it and/or *
* modify it under the terms of the GNU Library General Public *
* License as published by the Free Software Foundation; either *
* version 2 of the License, or (at your option) any later version. *
* *
* This library is distributed in the hope that it will be useful, *
* but WITHOUT ANY WARRANTY; without even the implied warranty of *
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the *
* GNU Library General Public License for more details. *
* *
* You should have received a copy of the GNU Library General Public *
* License along with this library; see the file COPYING.LIB. If not, *
* write to the Free Software Foundation, Inc., 59 Temple Place, *
* Suite 330, Boston, MA 02111-1307, USA *
* *
***************************************************************************/
#include "PreCompiled.h"
#ifndef _PreComp_
# include <sstream>
# include <QAction>
# include <QMessageBox>
#endif
#include <Gui/Command.h>
#include <Gui/SelectionObject.h>
#include <Mod/Fem/App/FemConstraintDisplacement.h>
#include "TaskFemConstraintDisplacement.h"
#include "ui_TaskFemConstraintDisplacement.h"
using namespace FemGui;
using namespace Gui;
/* TRANSLATOR FemGui::TaskFemConstraintDisplacement */
TaskFemConstraintDisplacement::TaskFemConstraintDisplacement(
ViewProviderFemConstraintDisplacement* ConstraintView, QWidget* parent)
: TaskFemConstraintOnBoundary(ConstraintView, parent, "FEM_ConstraintDisplacement"),
ui(new Ui_TaskFemConstraintDisplacement)
{
proxy = new QWidget(this);
ui->setupUi(proxy);
QMetaObject::connectSlotsByName(this);
// create a context menu for the listview of the references
createDeleteAction(ui->lw_references);
connect(deleteAction, &QAction::triggered,
this, &TaskFemConstraintDisplacement::onReferenceDeleted);
connect(ui->lw_references, &QListWidget::currentItemChanged,
this, &TaskFemConstraintDisplacement::setSelection);
connect(ui->lw_references, &QListWidget::itemClicked,
this, &TaskFemConstraintDisplacement::setSelection);
this->groupLayout()->addWidget(proxy);
// setup ranges
ui->spinxDisplacement->setMinimum(-FLOAT_MAX);
ui->spinxDisplacement->setMaximum(FLOAT_MAX);
ui->spinyDisplacement->setMinimum(-FLOAT_MAX);
ui->spinyDisplacement->setMaximum(FLOAT_MAX);
ui->spinzDisplacement->setMinimum(-FLOAT_MAX);
ui->spinzDisplacement->setMaximum(FLOAT_MAX);
ui->spinxRotation->setMinimum(-FLOAT_MAX);
ui->spinxRotation->setMaximum(FLOAT_MAX);
ui->spinyRotation->setMinimum(-FLOAT_MAX);
ui->spinyRotation->setMaximum(FLOAT_MAX);
ui->spinzRotation->setMinimum(-FLOAT_MAX);
ui->spinzRotation->setMaximum(FLOAT_MAX);
// Get the feature data
Fem::ConstraintDisplacement* pcConstraint =
static_cast<Fem::ConstraintDisplacement*>(ConstraintView->getObject());
double fStates[6] {};
const char* sStates[3] {};
bool bStates[16] {};
fStates[0] = pcConstraint->xDisplacement.getValue();
fStates[1] = pcConstraint->yDisplacement.getValue();
fStates[2] = pcConstraint->zDisplacement.getValue();
fStates[3] = pcConstraint->xRotation.getValue();
fStates[4] = pcConstraint->yRotation.getValue();
fStates[5] = pcConstraint->zRotation.getValue();
sStates[0] = pcConstraint->xDisplacementFormula.getValue();
sStates[1] = pcConstraint->yDisplacementFormula.getValue();
sStates[2] = pcConstraint->zDisplacementFormula.getValue();
bStates[0] = pcConstraint->xFix.getValue();
bStates[1] = pcConstraint->xFree.getValue();
bStates[2] = pcConstraint->yFix.getValue();
bStates[3] = pcConstraint->yFree.getValue();
bStates[4] = pcConstraint->zFix.getValue();
bStates[5] = pcConstraint->zFree.getValue();
bStates[6] = pcConstraint->rotxFix.getValue();
bStates[7] = pcConstraint->rotxFree.getValue();
bStates[8] = pcConstraint->rotyFix.getValue();
bStates[9] = pcConstraint->rotyFree.getValue();
bStates[10] = pcConstraint->rotzFix.getValue();
bStates[11] = pcConstraint->rotzFree.getValue();
bStates[12] = pcConstraint->hasXFormula.getValue();
bStates[13] = pcConstraint->hasYFormula.getValue();
bStates[14] = pcConstraint->hasZFormula.getValue();
bStates[15] = pcConstraint->useFlowSurfaceForce.getValue();
std::vector<App::DocumentObject*> Objects = pcConstraint->References.getValues();
std::vector<std::string> SubElements = pcConstraint->References.getSubValues();
ui->lw_references->clear();
for (std::size_t i = 0; i < Objects.size(); i++) {
ui->lw_references->addItem(makeRefText(Objects[i], SubElements[i]));
}
if (!Objects.empty()) {
ui->lw_references->setCurrentRow(0, QItemSelectionModel::ClearAndSelect);
}
// Connect check box values displacements
connect(ui->dispxfix, &QCheckBox::toggled, this, &TaskFemConstraintDisplacement::fixx);
connect(ui->DisplacementXFormulaCB, &QCheckBox::toggled,
this, &TaskFemConstraintDisplacement::formulaX);
connect(ui->dispyfix, &QCheckBox::toggled, this, &TaskFemConstraintDisplacement::fixy);
connect(ui->DisplacementYFormulaCB, &QCheckBox::toggled,
this, &TaskFemConstraintDisplacement::formulaY);
connect(ui->dispzfix, &QCheckBox::toggled, this, &TaskFemConstraintDisplacement::fixz);
connect(ui->DisplacementZFormulaCB, &QCheckBox::toggled,
this, &TaskFemConstraintDisplacement::formulaZ);
connect(ui->FlowForceCB, &QCheckBox::toggled,
this, &TaskFemConstraintDisplacement::flowForce);
// Connect to check box values for rotations
connect(ui->rotxfix, &QCheckBox::toggled, this, &TaskFemConstraintDisplacement::rotfixx);
connect(ui->rotyfix, &QCheckBox::toggled, this, &TaskFemConstraintDisplacement::rotfixy);
connect(ui->rotzfix, &QCheckBox::toggled, this, &TaskFemConstraintDisplacement::rotfixz);
// Fill data into dialog elements
ui->spinxDisplacement->setValue(fStates[0]);
ui->spinyDisplacement->setValue(fStates[1]);
ui->spinzDisplacement->setValue(fStates[2]);
ui->spinxRotation->setValue(fStates[3]);
ui->spinyRotation->setValue(fStates[4]);
ui->spinzRotation->setValue(fStates[5]);
ui->DisplacementXFormulaLE->setText(QString::fromUtf8(sStates[0]));
ui->DisplacementYFormulaLE->setText(QString::fromUtf8(sStates[1]));
ui->DisplacementZFormulaLE->setText(QString::fromUtf8(sStates[2]));
ui->dispxfix->setChecked(bStates[0]);
ui->DisplacementXGB->setChecked(!bStates[1]);
ui->dispyfix->setChecked(bStates[2]);
ui->DisplacementYGB->setChecked(!bStates[3]);
ui->dispzfix->setChecked(bStates[4]);
ui->DisplacementZGB->setChecked(!bStates[5]);
ui->rotxfix->setChecked(bStates[6]);
ui->RotationXGB->setChecked(!bStates[7]);
ui->rotyfix->setChecked(bStates[8]);
ui->RotationYGB->setChecked(!bStates[9]);
ui->rotzfix->setChecked(bStates[10]);
ui->RotationZGB->setChecked(!bStates[11]);
ui->DisplacementXFormulaCB->setChecked(bStates[12]);
ui->DisplacementYFormulaCB->setChecked(bStates[13]);
ui->DisplacementZFormulaCB->setChecked(bStates[14]);
ui->FlowForceCB->setChecked(bStates[15]);
// Selection buttons
buttonGroup->addButton(ui->btnAdd, (int)SelectionChangeModes::refAdd);
buttonGroup->addButton(ui->btnRemove, (int)SelectionChangeModes::refRemove);
updateUI();
}
TaskFemConstraintDisplacement::~TaskFemConstraintDisplacement()
{}
void TaskFemConstraintDisplacement::updateUI()
{
if (ui->lw_references->model()->rowCount() == 0) {
// Go into reference selection mode if no reference has been selected yet
onButtonReference(true);
return;
}
}
void TaskFemConstraintDisplacement::fixx(bool state)
{
if (state) {
ui->spinxDisplacement->setValue(0);
ui->DisplacementXFormulaCB->setChecked(!state);
}
ui->spinxDisplacement->setEnabled(!state);
ui->DisplacementXFormulaCB->setEnabled(!state);
}
void TaskFemConstraintDisplacement::formulaX(bool state)
{
ui->spinxDisplacement->setEnabled(!state);
ui->dispxfix->setEnabled(!state);
ui->DisplacementXFormulaLE->setEnabled(state);
}
void TaskFemConstraintDisplacement::fixy(bool state)
{
if (state) {
ui->spinyDisplacement->setValue(0);
ui->DisplacementYFormulaCB->setChecked(!state);
}
ui->spinyDisplacement->setEnabled(!state);
ui->DisplacementYFormulaCB->setEnabled(!state);
}
void TaskFemConstraintDisplacement::formulaY(bool state)
{
ui->spinyDisplacement->setEnabled(!state);
ui->dispyfix->setEnabled(!state);
ui->DisplacementYFormulaLE->setEnabled(state);
}
void TaskFemConstraintDisplacement::fixz(bool state)
{
if (state) {
ui->spinzDisplacement->setValue(0);
ui->DisplacementZFormulaCB->setChecked(!state);
}
ui->spinzDisplacement->setEnabled(!state);
ui->DisplacementZFormulaCB->setEnabled(!state);
}
void TaskFemConstraintDisplacement::formulaZ(bool state)
{
ui->spinzDisplacement->setEnabled(!state);
ui->dispzfix->setEnabled(!state);
ui->DisplacementZFormulaLE->setEnabled(state);
}
void TaskFemConstraintDisplacement::flowForce(bool state)
{
if (state) {
ui->DisplacementXGB->setChecked(!state);
ui->DisplacementYGB->setChecked(!state);
ui->DisplacementZGB->setChecked(!state);
ui->RotationXGB->setChecked(!state);
ui->RotationYGB->setChecked(!state);
ui->RotationZGB->setChecked(!state);
}
}
void TaskFemConstraintDisplacement::rotfixx(bool state)
{
if (state)
ui->spinxRotation->setValue(0);
ui->spinxRotation->setEnabled(!state);
}
void TaskFemConstraintDisplacement::formulaRotx(bool state)
{
ui->spinxRotation->setEnabled(!state);
ui->rotxfix->setEnabled(!state);
}
void TaskFemConstraintDisplacement::rotfixy(bool state)
{
if (state)
ui->spinyRotation->setValue(0);
ui->spinyRotation->setEnabled(!state);
}
void TaskFemConstraintDisplacement::formulaRoty(bool state)
{
ui->spinyRotation->setEnabled(!state);
ui->rotyfix->setEnabled(!state);
}
void TaskFemConstraintDisplacement::rotfixz(bool state)
{
if (state)
ui->spinzRotation->setValue(0);
ui->spinzRotation->setEnabled(!state);
}
void TaskFemConstraintDisplacement::formulaRotz(bool state)
{
ui->spinzRotation->setEnabled(!state);
ui->rotzfix->setEnabled(!state);
}
void TaskFemConstraintDisplacement::addToSelection()
{
std::vector<Gui::SelectionObject> selection =
Gui::Selection().getSelectionEx();// gets vector of selected objects of active document
if (selection.empty()) {
QMessageBox::warning(this, tr("Selection error"), tr("Nothing selected!"));
return;
}
Fem::ConstraintDisplacement* pcConstraint =
static_cast<Fem::ConstraintDisplacement*>(ConstraintView->getObject());
std::vector<App::DocumentObject*> Objects = pcConstraint->References.getValues();
std::vector<std::string> SubElements = pcConstraint->References.getSubValues();
for (std::vector<Gui::SelectionObject>::iterator it = selection.begin(); it != selection.end();
++it) {// for every selected object
if (!it->isObjectTypeOf(Part::Feature::getClassTypeId())) {
QMessageBox::warning(this, tr("Selection error"), tr("Selected object is not a part!"));
return;
}
const std::vector<std::string>& subNames = it->getSubNames();
App::DocumentObject* obj = it->getObject();
for (size_t subIt = 0; subIt < (subNames.size());
++subIt) {// for every selected sub element
bool addMe = true;
for (std::vector<std::string>::iterator itr =
std::find(SubElements.begin(), SubElements.end(), subNames[subIt]);
itr != SubElements.end();
itr = std::find(++itr,
SubElements.end(),
subNames[subIt])) {// for every sub element in selection that
// matches one in old list
if (obj
== Objects[std::distance(
SubElements.begin(),
itr)]) {// if selected sub element's object equals the one in old list then
// it was added before so don't add
addMe = false;
}
}
// limit constraint such that only vertexes or faces or edges can be used depending on
// what was selected first
std::string searchStr;
if (subNames[subIt].find("Vertex") != std::string::npos)
searchStr = "Vertex";
else if (subNames[subIt].find("Edge") != std::string::npos)
searchStr = "Edge";
else
searchStr = "Face";
for (size_t iStr = 0; iStr < (SubElements.size()); ++iStr) {
if (SubElements[iStr].find(searchStr) == std::string::npos) {
QString msg = tr(
"Only one type of selection (vertex,face or edge) per constraint allowed!");
QMessageBox::warning(this, tr("Selection error"), msg);
addMe = false;
break;
}
}
if (addMe) {
QSignalBlocker block(ui->lw_references);
Objects.push_back(obj);
SubElements.push_back(subNames[subIt]);
ui->lw_references->addItem(makeRefText(obj, subNames[subIt]));
}
}
}
// Update UI
pcConstraint->References.setValues(Objects, SubElements);
updateUI();
}
void TaskFemConstraintDisplacement::removeFromSelection()
{
std::vector<Gui::SelectionObject> selection =
Gui::Selection().getSelectionEx();// gets vector of selected objects of active document
if (selection.empty()) {
QMessageBox::warning(this, tr("Selection error"), tr("Nothing selected!"));
return;
}
Fem::ConstraintDisplacement* pcConstraint =
static_cast<Fem::ConstraintDisplacement*>(ConstraintView->getObject());
std::vector<App::DocumentObject*> Objects = pcConstraint->References.getValues();
std::vector<std::string> SubElements = pcConstraint->References.getSubValues();
std::vector<size_t> itemsToDel;
for (std::vector<Gui::SelectionObject>::iterator it = selection.begin(); it != selection.end();
++it) {// for every selected object
if (!it->isObjectTypeOf(Part::Feature::getClassTypeId())) {
QMessageBox::warning(this, tr("Selection error"), tr("Selected object is not a part!"));
return;
}
const std::vector<std::string>& subNames = it->getSubNames();
App::DocumentObject* obj = it->getObject();
for (size_t subIt = 0; subIt < (subNames.size());
++subIt) {// for every selected sub element
for (std::vector<std::string>::iterator itr =
std::find(SubElements.begin(), SubElements.end(), subNames[subIt]);
itr != SubElements.end();
itr = std::find(++itr,
SubElements.end(),
subNames[subIt])) {// for every sub element in selection that
// matches one in old list
if (obj
== Objects[std::distance(
SubElements.begin(),
itr)]) {// if selected sub element's object equals the one in old list then
// it was added before so mark for deletion
itemsToDel.push_back(std::distance(SubElements.begin(), itr));
}
}
}
}
std::sort(itemsToDel.begin(), itemsToDel.end());
while (!itemsToDel.empty()) {
Objects.erase(Objects.begin() + itemsToDel.back());
SubElements.erase(SubElements.begin() + itemsToDel.back());
itemsToDel.pop_back();
}
// Update UI
{
QSignalBlocker block(ui->lw_references);
ui->lw_references->clear();
for (unsigned int j = 0; j < Objects.size(); j++) {
ui->lw_references->addItem(makeRefText(Objects[j], SubElements[j]));
}
}
pcConstraint->References.setValues(Objects, SubElements);
updateUI();
}
void TaskFemConstraintDisplacement::onReferenceDeleted()
{
TaskFemConstraintDisplacement::removeFromSelection();// OvG: On right-click face is
// automatically selected, so just remove
}
const std::string TaskFemConstraintDisplacement::getReferences() const
{
int rows = ui->lw_references->model()->rowCount();
std::vector<std::string> items;
for (int r = 0; r < rows; r++) {
items.push_back(ui->lw_references->item(r)->text().toStdString());
}
return TaskFemConstraint::getReferences(items);
}
double TaskFemConstraintDisplacement::get_spinxDisplacement() const
{
return ui->spinxDisplacement->value();
}
double TaskFemConstraintDisplacement::get_spinyDisplacement() const
{
return ui->spinyDisplacement->value();
}
double TaskFemConstraintDisplacement::get_spinzDisplacement() const
{
return ui->spinzDisplacement->value();
}
double TaskFemConstraintDisplacement::get_spinxRotation() const
{
return ui->spinxRotation->value();
}
double TaskFemConstraintDisplacement::get_spinyRotation() const
{
return ui->spinyRotation->value();
}
double TaskFemConstraintDisplacement::get_spinzRotation() const
{
return ui->spinzRotation->value();
}
std::string TaskFemConstraintDisplacement::get_xFormula() const
{
QString xFormula = ui->DisplacementXFormulaLE->text();
xFormula.replace(QString::fromLatin1("\""), QString::fromLatin1("\\\""));
return xFormula.toStdString();
}
std::string TaskFemConstraintDisplacement::get_yFormula() const
{
QString yFormula = ui->DisplacementYFormulaLE->text();
yFormula.replace(QString::fromLatin1("\""), QString::fromLatin1("\\\""));
return yFormula.toStdString();
}
std::string TaskFemConstraintDisplacement::get_zFormula() const
{
QString zFormula = ui->DisplacementZFormulaLE->text();
zFormula.replace(QString::fromLatin1("\""), QString::fromLatin1("\\\""));
return zFormula.toStdString();
;
}
bool TaskFemConstraintDisplacement::get_dispxfix() const
{
return ui->dispxfix->isChecked();
}
bool TaskFemConstraintDisplacement::get_dispxfree() const
{
return !ui->DisplacementXGB->isChecked();
}
bool TaskFemConstraintDisplacement::get_hasDispXFormula() const
{
return ui->DisplacementXFormulaCB->isChecked();
}
bool TaskFemConstraintDisplacement::get_dispyfix() const
{
return ui->dispyfix->isChecked();
}
bool TaskFemConstraintDisplacement::get_dispyfree() const
{
return !ui->DisplacementYGB->isChecked();
}
bool TaskFemConstraintDisplacement::get_hasDispYFormula() const
{
return ui->DisplacementYFormulaCB->isChecked();
}
bool TaskFemConstraintDisplacement::get_dispzfix() const
{
return ui->dispzfix->isChecked();
}
bool TaskFemConstraintDisplacement::get_dispzfree() const
{
return !ui->DisplacementZGB->isChecked();
}
bool TaskFemConstraintDisplacement::get_hasDispZFormula() const
{
return ui->DisplacementZFormulaCB->isChecked();
}
bool TaskFemConstraintDisplacement::get_rotxfix() const
{
return ui->rotxfix->isChecked();
}
bool TaskFemConstraintDisplacement::get_rotxfree() const
{
return !ui->RotationXGB->isChecked();
}
bool TaskFemConstraintDisplacement::get_rotyfix() const
{
return ui->rotyfix->isChecked();
}
bool TaskFemConstraintDisplacement::get_rotyfree() const
{
return !ui->RotationYGB->isChecked();
}
bool TaskFemConstraintDisplacement::get_rotzfix() const
{
return ui->rotzfix->isChecked();
}
bool TaskFemConstraintDisplacement::get_rotzfree() const
{
return !ui->RotationZGB->isChecked();
}
bool TaskFemConstraintDisplacement::get_useFlowSurfaceForce() const
{
return ui->FlowForceCB->isChecked();
}
bool TaskFemConstraintDisplacement::event(QEvent* e)
{
return TaskFemConstraint::KeyEvent(e);
}
void TaskFemConstraintDisplacement::changeEvent(QEvent*)
{
// TaskBox::changeEvent(e);
// if (e->type() == QEvent::LanguageChange) {
// ui->if_pressure->blockSignals(true);
// ui->retranslateUi(proxy);
// ui->if_pressure->blockSignals(false);
// }
}
void TaskFemConstraintDisplacement::clearButtons(const SelectionChangeModes notThis)
{
if (notThis != SelectionChangeModes::refAdd)
ui->btnAdd->setChecked(false);
if (notThis != SelectionChangeModes::refRemove)
ui->btnRemove->setChecked(false);
}
//**************************************************************************
// TaskDialog
//++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
TaskDlgFemConstraintDisplacement::TaskDlgFemConstraintDisplacement(
ViewProviderFemConstraintDisplacement* ConstraintView)
{
this->ConstraintView = ConstraintView;
assert(ConstraintView);
this->parameter = new TaskFemConstraintDisplacement(ConstraintView);
Content.push_back(parameter);
}
//==== calls from the TaskView ===============================================================
void TaskDlgFemConstraintDisplacement::open()
{
// a transaction is already open at creation time of the panel
if (!Gui::Command::hasPendingCommand()) {
QString msg = QObject::tr("Constraint displacement");
Gui::Command::openCommand((const char*)msg.toUtf8());
ConstraintView->setVisible(true);
Gui::Command::doCommand(
Gui::Command::Doc,
ViewProviderFemConstraint::gethideMeshShowPartStr(
(static_cast<Fem::Constraint*>(ConstraintView->getObject()))->getNameInDocument())
.c_str());// OvG: Hide meshes and show parts
}
}
bool TaskDlgFemConstraintDisplacement::accept()
{
std::string name = ConstraintView->getObject()->getNameInDocument();
const TaskFemConstraintDisplacement* parameterDisplacement =
static_cast<const TaskFemConstraintDisplacement*>(parameter);
try {
Gui::Command::doCommand(Gui::Command::Doc, "App.ActiveDocument.%s.xDisplacement = %f",
name.c_str(), parameterDisplacement->get_spinxDisplacement());
Gui::Command::doCommand(Gui::Command::Doc,
"App.ActiveDocument.%s.xDisplacementFormula = \"%s\"",
name.c_str(), parameterDisplacement->get_xFormula().c_str());
Gui::Command::doCommand(Gui::Command::Doc, "App.ActiveDocument.%s.yDisplacement = %f",
name.c_str(), parameterDisplacement->get_spinyDisplacement());
Gui::Command::doCommand(Gui::Command::Doc,
"App.ActiveDocument.%s.yDisplacementFormula = \"%s\"",
name.c_str(), parameterDisplacement->get_yFormula().c_str());
Gui::Command::doCommand(Gui::Command::Doc, "App.ActiveDocument.%s.zDisplacement = %f",
name.c_str(), parameterDisplacement->get_spinzDisplacement());
Gui::Command::doCommand(Gui::Command::Doc,
"App.ActiveDocument.%s.zDisplacementFormula = \"%s\"",
name.c_str(), parameterDisplacement->get_zFormula().c_str());
Gui::Command::doCommand(Gui::Command::Doc, "App.ActiveDocument.%s.xRotation = %f",
name.c_str(), parameterDisplacement->get_spinxRotation());
Gui::Command::doCommand(Gui::Command::Doc, "App.ActiveDocument.%s.yRotation = %f",
name.c_str(), parameterDisplacement->get_spinyRotation());
Gui::Command::doCommand(Gui::Command::Doc, "App.ActiveDocument.%s.zRotation = %f",
name.c_str(), parameterDisplacement->get_spinzRotation());
Gui::Command::doCommand(Gui::Command::Doc, "App.ActiveDocument.%s.xFree = %s",
name.c_str(),
parameterDisplacement->get_dispxfree() ? "True" : "False");
Gui::Command::doCommand(Gui::Command::Doc, "App.ActiveDocument.%s.xFix = %s",
name.c_str(),
parameterDisplacement->get_dispxfix() ? "True" : "False");
Gui::Command::doCommand(Gui::Command::Doc, "App.ActiveDocument.%s.hasXFormula = %s",
name.c_str(),
parameterDisplacement->get_hasDispXFormula() ? "True" : "False");
Gui::Command::doCommand(Gui::Command::Doc, "App.ActiveDocument.%s.yFree = %s",
name.c_str(),
parameterDisplacement->get_dispyfree() ? "True" : "False");
Gui::Command::doCommand(Gui::Command::Doc, "App.ActiveDocument.%s.yFix = %s",
name.c_str(),
parameterDisplacement->get_dispyfix() ? "True" : "False");
Gui::Command::doCommand(Gui::Command::Doc, "App.ActiveDocument.%s.hasYFormula = %s",
name.c_str(),
parameterDisplacement->get_hasDispYFormula() ? "True" : "False");
Gui::Command::doCommand(Gui::Command::Doc, "App.ActiveDocument.%s.zFree = %s",
name.c_str(),
parameterDisplacement->get_dispzfree() ? "True" : "False");
Gui::Command::doCommand(Gui::Command::Doc, "App.ActiveDocument.%s.zFix = %s",
name.c_str(),
parameterDisplacement->get_dispzfix() ? "True" : "False");
Gui::Command::doCommand(Gui::Command::Doc, "App.ActiveDocument.%s.hasZFormula = %s",
name.c_str(),
parameterDisplacement->get_hasDispZFormula() ? "True" : "False");
Gui::Command::doCommand(Gui::Command::Doc, "App.ActiveDocument.%s.rotxFree = %s",
name.c_str(),
parameterDisplacement->get_rotxfree() ? "True" : "False");
Gui::Command::doCommand(Gui::Command::Doc, "App.ActiveDocument.%s.rotxFix = %s",
name.c_str(),
parameterDisplacement->get_rotxfix() ? "True" : "False");
Gui::Command::doCommand(Gui::Command::Doc, "App.ActiveDocument.%s.rotyFree = %s",
name.c_str(),
parameterDisplacement->get_rotyfree() ? "True" : "False");
Gui::Command::doCommand(Gui::Command::Doc, "App.ActiveDocument.%s.rotyFix = %s",
name.c_str(),
parameterDisplacement->get_rotyfix() ? "True" : "False");
Gui::Command::doCommand(Gui::Command::Doc, "App.ActiveDocument.%s.rotzFree = %s",
name.c_str(),
parameterDisplacement->get_rotzfree() ? "True" : "False");
Gui::Command::doCommand(Gui::Command::Doc, "App.ActiveDocument.%s.rotzFix = %s",
name.c_str(),
parameterDisplacement->get_rotzfix() ? "True" : "False");
Gui::Command::doCommand(Gui::Command::Doc,
"App.ActiveDocument.%s.useFlowSurfaceForce = %s",
name.c_str(),
parameterDisplacement->get_useFlowSurfaceForce() ? "True"
: "False");
std::string scale = parameterDisplacement->getScale();// OvG: determine modified scale
Gui::Command::doCommand(Gui::Command::Doc,
"App.ActiveDocument.%s.Scale = %s",
name.c_str(),
scale.c_str());// OvG: implement modified scale
}
catch (const Base::Exception& e) {
QMessageBox::warning(parameter, tr("Input error"), QString::fromLatin1(e.what()));
return false;
}
return TaskDlgFemConstraint::accept();
}
bool TaskDlgFemConstraintDisplacement::reject()
{
Gui::Command::abortCommand();
Gui::Command::doCommand(Gui::Command::Gui, "Gui.activeDocument().resetEdit()");
Gui::Command::updateActive();
return true;
}
#include "moc_TaskFemConstraintDisplacement.cpp"
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