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948916b888ea8ef262ccbb7e5626280bdacc3d59
create/src/App/Datums.cpp
Markus Reitböck d05e2a0431 App: use CMake to generate precompiled headers on all platforms 
"Professional CMake" book suggest the following:

"Targets should build successfully with or without compiler support for precompiled headers. It
should be considered an optimization, not a requirement. In particular, do not explicitly include a
precompile header (e.g. stdafx.h) in the source code, let CMake force-include an automatically
generated precompile header on the compiler command line instead. This is more portable across
the major compilers and is likely to be easier to maintain. It will also avoid warnings being
generated from certain code checking tools like iwyu (include what you use)."

Therefore, removed the "#include <PreCompiled.h>" from sources, also
there is no need for the "#ifdef _PreComp_" anymore
2025-09-14 09:47:02 +02:00

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/***************************************************************************
* Copyright (c) 2015 Stefan Tröger <stefantroeger@gmx.net> *
* Copyright (c) 2015 Alexander Golubev (Fat-Zer) <fatzer2@gmail.com> *
* Copyright (c) 2024 Ondsel (PL Boyer) <development@ondsel.com> *
* *
* 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 <string>
#include <App/Document.h>
#include <Base/Exception.h>
#include <Base/Placement.h>
#include <Base/Tools.h>
#include "Datums.h"
using namespace App;
PROPERTY_SOURCE(App::DatumElement, App::GeoFeature)
PROPERTY_SOURCE(App::Plane, App::DatumElement)
PROPERTY_SOURCE(App::Line, App::DatumElement)
PROPERTY_SOURCE(App::Point, App::DatumElement)
PROPERTY_SOURCE_WITH_EXTENSIONS(App::LocalCoordinateSystem, App::GeoFeature)
DatumElement::DatumElement(bool hideRole)
: baseDir{0.0, 0.0, 1.0}
{
ADD_PROPERTY_TYPE(Role,
(""),
0,
App::Prop_ReadOnly,
"Role of the datum in the local coordinate system.");
// The role is hidden by default. It is visible only when the datum is in a LCS
if (hideRole) {
Role.setStatus(Property::Hidden, true);
}
}
DatumElement::~DatumElement() = default;
bool DatumElement::getCameraAlignmentDirection(Base::Vector3d& directionZ, Base::Vector3d& directionX, const char* subname) const
{
Q_UNUSED(subname);
Placement.getValue().getRotation().multVec(baseDir, directionZ);
if (baseDir == Base::Vector3d::UnitZ) {
Placement.getValue().getRotation().multVec(Base::Vector3d::UnitX, directionX);
}
return true;
}
App::LocalCoordinateSystem* DatumElement::getLCS() const
{
auto inList = getInList();
for (auto* obj : inList) {
auto* lcs = dynamic_cast<App::LocalCoordinateSystem*>(obj);
if (lcs) {
return lcs;
}
}
return nullptr;
}
bool DatumElement::isOriginFeature() const
{
const auto* lcs = getLCS();
return lcs ? lcs->isOrigin() : false;
}
Base::Vector3d DatumElement::getBasePoint() const
{
Base::Vector3d pos = Placement.getValue().getPosition();
const auto* lcs = getLCS();
if (lcs && !lcs->isOrigin()) {
pos += lcs->Placement.getValue().getPosition();
}
return pos;
}
Base::Vector3d DatumElement::getDirection() const
{
Base::Vector3d dir(baseDir);
Base::Placement plc = Placement.getValue();
Base::Rotation rot = plc.getRotation();
rot.multVec(dir, dir);
const auto* lcs = getLCS();
if (lcs && !lcs->isOrigin()) {
Base::Rotation lcsRot = lcs->Placement.getValue().getRotation();
lcsRot.multVec(dir, dir);
}
return dir;
}
Base::Vector3d DatumElement::getBaseDirection() const
{
return baseDir;
}
void DatumElement::setBaseDirection(const Base::Vector3d& dir)
{
baseDir = dir;
}
// ----------------------------------------------------------------------------
Line::Line()
{
setBaseDirection(Base::Vector3d(1, 0, 0));
}
Point::Point()
{
setBaseDirection(Base::Vector3d(0, 0, 0));
}
// ----------------------------------------------------------------------------
LocalCoordinateSystem::LocalCoordinateSystem()
{
ADD_PROPERTY_TYPE(OriginFeatures,
(nullptr),
0,
App::Prop_Hidden,
"Axis and baseplanes controlled by the LCS");
Group.setStatus(Property::Transient, true);
setStatus(App::NoAutoExpand, true);
GroupExtension::initExtension(this);
}
LocalCoordinateSystem::~LocalCoordinateSystem() = default;
bool LocalCoordinateSystem::getCameraAlignmentDirection(Base::Vector3d& directionZ,
Base::Vector3d& directionX,
const char* subname) const
{
Q_UNUSED(subname);
Placement.getValue().getRotation().multVec(Base::Vector3d::UnitZ, directionZ);
Placement.getValue().getRotation().multVec(Base::Vector3d::UnitX, directionX);
return true;
}
App::DatumElement* LocalCoordinateSystem::getDatumElement(const char* role) const
{
const auto& features = OriginFeatures.getValues();
auto featIt = std::find_if(features.begin(), features.end(), [role](App::DocumentObject* obj) {
return obj->isDerivedFrom<App::DatumElement>()
&& strcmp(static_cast<App::DatumElement*>(obj)->Role.getValue(), role) == 0;
});
if (featIt != features.end()) {
return static_cast<App::DatumElement*>(*featIt);
}
std::stringstream err;
err << "LocalCoordinateSystem \"" << getFullName() << "\" doesn't contain feature with role \""
<< role << '"';
throw Base::RuntimeError(err.str().c_str());
}
App::Line* LocalCoordinateSystem::getAxis(const char* role) const
{
App::DatumElement* feat = getDatumElement(role);
if (feat->isDerivedFrom<App::Line>()) {
return static_cast<App::Line*>(feat);
}
std::stringstream err;
err << "LocalCoordinateSystem \"" << getFullName() << "\" contains bad Axis object for role \""
<< role << '"';
throw Base::RuntimeError(err.str().c_str());
}
App::Plane* LocalCoordinateSystem::getPlane(const char* role) const
{
App::DatumElement* feat = getDatumElement(role);
if (feat->isDerivedFrom<App::Plane>()) {
return static_cast<App::Plane*>(feat);
}
std::stringstream err;
err << "LocalCoordinateSystem \"" << getFullName() << "\" contains bad Plane object for role \""
<< role << '"';
throw Base::RuntimeError(err.str().c_str());
}
App::Point* LocalCoordinateSystem::getPoint(const char* role) const
{
App::DatumElement* feat = getDatumElement(role);
if (feat->isDerivedFrom<App::Point>()) {
return static_cast<App::Point*>(feat);
}
std::stringstream err;
err << "LocalCoordinateSystem \"" << getFullName() << "\" contains bad Point object for role \""
<< role << '"';
throw Base::RuntimeError(err.str().c_str());
}
short LocalCoordinateSystem::mustExecute() const
{
if (OriginFeatures.isTouched()) {
return 1;
}
return DocumentObject::mustExecute();
}
App::DocumentObjectExecReturn* LocalCoordinateSystem::execute()
{
try { // try to find all base axis and planes in the origin
for (const char* role : AxisRoles) {
App::Line* axis = getAxis(role);
assert(axis);
(void)axis;
}
for (const char* role : PlaneRoles) {
App::Plane* plane = getPlane(role);
assert(plane);
(void)plane;
}
}
catch (const Base::Exception& ex) {
setError();
return new App::DocumentObjectExecReturn(ex.what());
}
return DocumentObject::execute();
}
const std::vector<LocalCoordinateSystem::SetupData>& LocalCoordinateSystem::getSetupData()
{
using std::numbers::pi;
static const std::vector<SetupData> setupData = {
// clang-format off
{App::Line::getClassTypeId(), AxisRoles[0], tr("X-axis"), Base::Rotation()},
{App::Line::getClassTypeId(), AxisRoles[1], tr("Y-axis"), Base::Rotation(Base::Vector3d(1, 1, 1), pi * 2 / 3)},
{App::Line::getClassTypeId(), AxisRoles[2], tr("Z-axis"), Base::Rotation(Base::Vector3d(1,-1, 1), pi * 2 / 3)},
{App::Plane::getClassTypeId(), PlaneRoles[0], tr("XY-plane"), Base::Rotation()},
{App::Plane::getClassTypeId(), PlaneRoles[1], tr("XZ-plane"), Base::Rotation(1.0, 0.0, 0.0, 1.0)},
{App::Plane::getClassTypeId(), PlaneRoles[2], tr("YZ-plane"), Base::Rotation(Base::Vector3d(1, 1, 1), pi * 2 / 3)},
{App::Point::getClassTypeId(), PointRoles[0], tr("Origin"), Base::Rotation()}
// clang-format on
};
return setupData;
}
DatumElement* LocalCoordinateSystem::createDatum(const SetupData& data)
{
App::Document* doc = getDocument();
std::string objName = doc->getUniqueObjectName(data.role);
App::DocumentObject* featureObj = doc->addObject(data.type.getName(), objName.c_str());
assert(featureObj && featureObj->isDerivedFrom<App::DatumElement>());
QByteArray byteArray = data.label.toUtf8();
featureObj->Label.setValue(byteArray.constData());
auto* feature = static_cast<App::DatumElement*>(featureObj);
feature->Placement.setValue(Base::Placement(Base::Vector3d(), data.rot));
feature->Role.setValue(data.role);
feature->Placement.setStatus(Property::Hidden, true);
return feature;
}
LocalCoordinateSystem::SetupData LocalCoordinateSystem::getData(const char* role)
{
const auto& setupData = getSetupData();
for (auto data : setupData) {
if (std::strcmp(role, data.role) == 0) {
return data;
}
}
return LocalCoordinateSystem::SetupData();
}
void LocalCoordinateSystem::setupObject()
{
std::vector<App::DocumentObject*> links;
const auto& setupData = getSetupData();
for (auto data : setupData) {
links.push_back(createDatum(data));
}
OriginFeatures.setValues(links);
}
void LocalCoordinateSystem::unsetupObject()
{
const auto& objsLnk = OriginFeatures.getValues();
// Copy to set to assert we won't call method more then one time for each object
const std::set<App::DocumentObject*> objs(objsLnk.begin(), objsLnk.end());
// Remove all controlled objects
for (auto obj : objs) {
// Check that previous deletes didn't indirectly remove one of our objects
const auto& objsLnk2 = OriginFeatures.getValues();
if (std::ranges::find(objsLnk2, obj) != objsLnk2.end()) {
if (!obj->isRemoving()) {
obj->getDocument()->removeObject(obj->getNameInDocument());
}
}
}
}
void LocalCoordinateSystem::onDocumentRestored()
{
GeoFeature::onDocumentRestored();
// In 0.22 origins did not have point.
migrateOriginPoint();
}
void LocalCoordinateSystem::migrateOriginPoint()
{
auto features = OriginFeatures.getValues();
auto isOrigin = [](App::DocumentObject* obj) {
return obj->isDerivedFrom<App::DatumElement>() &&
strcmp(static_cast<App::DatumElement*>(obj)->Role.getValue(), PointRoles[0]) == 0;
};
if (std::ranges::none_of(features, isOrigin)) {
auto data = getData(PointRoles[0]);
auto* origin = createDatum(data);
origin->purgeTouched();
features.push_back(origin);
OriginFeatures.setValues(features);
}
}
// ----------------------------------------------------------------------------
bool LocalCoordinateSystem::extensionGetSubObject(DocumentObject*& ret,
const char* subname,
PyObject** pyobj,
Base::Matrix4D* mat,
bool,
int depth) const
{
if (Base::Tools::isNullOrEmpty(subname)) {
return false;
}
// mapping of object name to role name
std::string name(subname);
for (int i = 0; i < 3; i++) {
if (name.rfind(LocalCoordinateSystem::AxisRoles[i], 0) == 0) {
name = LocalCoordinateSystem::AxisRoles[i];
break;
}
if (name.rfind(LocalCoordinateSystem::PlaneRoles[i], 0) == 0) {
name = LocalCoordinateSystem::PlaneRoles[i];
break;
}
}
if (name.rfind(LocalCoordinateSystem::PointRoles[0], 0) == 0) {
name = LocalCoordinateSystem::PointRoles[0];
}
try {
ret = getDatumElement(name.c_str());
if (!ret) {
return false;
}
const char* dot = strchr(subname, '.');
if (dot) {
subname = dot + 1;
}
else {
subname = "";
}
ret = ret->getSubObject(subname, pyobj, mat, true, depth + 1);
return true;
}
catch (const Base::Exception& e) {
e.reportException();
return false;
}
}
bool LocalCoordinateSystem::hasObject(const DocumentObject* obj, [[maybe_unused]] bool recursive) const
{
const auto& features = OriginFeatures.getValues();
return std::ranges::find(features, obj) != features.end();
}
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