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create/src/Mod/Measure/App/MeasureBase.cpp
pre-commit-ci[bot] 0797cd2f00 [pre-commit.ci] auto fixes from pre-commit.com hooks 
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/***************************************************************************
* Copyright (c) 2023 David Friedli <david[at]friedli-be.ch> *
* *
* This file is part of FreeCAD. *
* *
* FreeCAD is free software: you can redistribute it and/or modify it *
* under the terms of the GNU Lesser General Public License as *
* published by the Free Software Foundation, either version 2.1 of the *
* License, or (at your option) any later version. *
* *
* FreeCAD 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 *
* Lesser General Public License for more details. *
* *
* You should have received a copy of the GNU Lesser General Public *
* License along with FreeCAD. If not, see *
* <https://www.gnu.org/licenses/>. *
* *
**************************************************************************/
#include "PreCompiled.h"
#include <App/PropertyGeo.h>
#include <Base/PlacementPy.h>
#include <App/FeaturePythonPyImp.h>
#include <App/DocumentObjectPy.h>
#include "MeasureBase.h"
// Generated from MeasureBasePy.xml
#include "MeasureBasePy.h"
using namespace Measure;
PROPERTY_SOURCE(Measure::MeasureBase, App::DocumentObject)
MeasureBase::MeasureBase()
{
ADD_PROPERTY_TYPE(
Placement,
(Base::Placement()),
nullptr,
App::PropertyType(App::Prop_ReadOnly | App::Prop_Output | App::Prop_NoRecompute),
"Visual placement of the measurement");
}
PyObject* MeasureBase::getPyObject(void)
{
if (PythonObject.is(Py::_None())) {
// ref counter is set to 1
PythonObject = Py::Object(new MeasureBasePy(this), true);
}
return Py::new_reference_to(PythonObject);
}
Py::Object MeasureBase::getProxyObject() const
{
Base::PyGILStateLocker lock;
App::Property* prop = this->getPropertyByName("Proxy");
if (!prop) {
return Py::None();
}
return dynamic_cast<App::PropertyPythonObject*>(prop)->getValue();
};
std::vector<App::DocumentObject*> MeasureBase::getSubject() const
{
Base::PyGILStateLocker lock;
Py::Object proxy = getProxyObject();
// Pass the feature object to the proxy
Py::Tuple args(1);
args.setItem(0, Py::Object(const_cast<MeasureBase*>(this)->getPyObject()));
Py::Object ret;
try {
ret = proxy.callMemberFunction("getSubject", args);
}
catch (Py::Exception&) {
Base::PyException e;
e.ReportException();
return {};
}
Py::Sequence retTuple(ret);
std::vector<App::DocumentObject*> retVec;
for (Py::Object o : retTuple) {
retVec.push_back(static_cast<App::DocumentObjectPy*>(o.ptr())->getDocumentObjectPtr());
}
return retVec;
};
void MeasureBase::parseSelection(const App::MeasureSelection& selection)
{
Base::PyGILStateLocker lock;
Py::Object proxy = getProxyObject();
// Convert selection to python list
Py::Tuple selectionPy = App::MeasureManager::getSelectionPy(selection);
Py::Tuple args(2);
// Pass the feature object to the proxy
args.setItem(0, Py::Object(const_cast<MeasureBase*>(this)->getPyObject()));
args.setItem(1, selectionPy);
// Call the parseSelection method of the proxy object
try {
proxy.callMemberFunction("parseSelection", args);
}
catch (Py::Exception&) {
Base::PyException e;
e.ReportException();
}
}
std::vector<std::string> MeasureBase::getInputProps()
{
Base::PyGILStateLocker lock;
Py::Object proxy = getProxyObject();
if (proxy.isNone()) {
return {};
}
Py::Object ret;
try {
ret = proxy.callMemberFunction("getInputProps");
}
catch (Py::Exception&) {
Base::PyException e;
e.ReportException();
return {};
}
Py::Sequence propsPy(ret);
// Get cpp vector from propsPy
std::vector<std::string> props;
for (Py::Object o : propsPy) {
props.push_back(o.as_string());
}
return props;
}
QString MeasureBase::getResultString()
{
Py::Object proxy = getProxyObject();
Base::PyGILStateLocker lock;
if (!proxy.isNone()) {
// Pass the feature object to the proxy
Py::Tuple args(1);
args.setItem(0, Py::Object(const_cast<MeasureBase*>(this)->getPyObject()));
Py::Object ret;
try {
ret = proxy.callMemberFunction("getResultString", args);
}
catch (Py::Exception&) {
Base::PyException e;
e.ReportException();
return QString();
}
return QString::fromStdString(ret.as_string());
}
App::Property* prop = getResultProp();
if (prop == nullptr) {
return QString();
}
if (prop->isDerivedFrom(App::PropertyQuantity::getClassTypeId())) {
return static_cast<App::PropertyQuantity*>(prop)->getQuantityValue().getUserString();
}
return QString();
}
void MeasureBase::onDocumentRestored()
{
// Force recompute the measurement
recompute();
}
Base::Placement MeasureBase::getPlacement()
{
return this->Placement.getValue();
}
// Python Drawing feature ---------------------------------------------------------
namespace App
{
/// @cond DOXERR
PROPERTY_SOURCE_TEMPLATE(Measure::MeasurePython, Measure::MeasureBase)
template<>
const char* Measure::MeasurePython::getViewProviderName(void) const
{
return "MeasureGui::ViewProviderMeasure";
}
template<>
PyObject* Measure::MeasurePython::getPyObject()
{
if (PythonObject.is(Py::_None())) {
// ref counter is set to 1
PythonObject = Py::Object(new FeaturePythonPyT<Measure::MeasureBasePy>(this), true);
}
return Py::new_reference_to(PythonObject);
}
/// @endcond
// explicit template instantiation
template class MeasureExport FeaturePythonT<Measure::MeasureBase>;
} // namespace App
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