/************************************************************************ ** ** @file vcontainer.cpp ** @author Roman Telezhynskyi ** @date November 15, 2013 ** ** @brief ** @copyright ** This source code is part of the Valentina project, a pattern making ** program, whose allow create and modeling patterns of clothing. ** Copyright (C) 2013-2015 Valentina project ** All Rights Reserved. ** ** Valentina is free software: you can redistribute it and/or modify ** it under the terms of the GNU General Public License as published by ** the Free Software Foundation, either version 3 of the License, or ** (at your option) any later version. ** ** Valentina 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 General Public License for more details. ** ** You should have received a copy of the GNU General Public License ** along with Valentina. If not, see . ** *************************************************************************/ #include "vcontainer.h" #include #include #include #include #include "../ifc/exception/vexception.h" #include "../vgeometry/vabstractcubicbezierpath.h" #include "../vgeometry/vabstractcurve.h" #include "../vgeometry/vgeometrydef.h" #include "../vgeometry/vgobject.h" #include "../vgeometry/vpointf.h" #include "../vgeometry/vspline.h" #include "../vgeometry/varc.h" #include "../vgeometry/vellipticalarc.h" #include "../vmisc/diagnostic.h" #include "../vmisc/logging.h" #include "../vmisc/vabstractapplication.h" #include "variables/varcradius.h" #include "variables/vcurveangle.h" #include "variables/vcurvelength.h" #include "variables/vcurveclength.h" #include "variables/vincrement.h" #include "variables/vlineangle.h" #include "variables/vlinelength.h" #include "variables/vmeasurement.h" #include "variables/vvariable.h" #include "vtranslatevars.h" QT_WARNING_PUSH QT_WARNING_DISABLE_CLANG("-Wmissing-prototypes") QT_WARNING_DISABLE_INTEL(1418) Q_LOGGING_CATEGORY(vCon, "v.container") QT_WARNING_POP QMap VContainer::_id = QMap(); QMap VContainer::_size = QMap(); QMap VContainer::_height = QMap(); QMap> VContainer::uniqueNames = QMap>(); QMap VContainer::copyCounter = QMap(); //--------------------------------------------------------------------------------------------------------------------- /** * @brief VContainer create empty container */ VContainer::VContainer(const VTranslateVars *trVars, const Unit *patternUnit, const QString &nspace) :d(new VContainerData(trVars, patternUnit, nspace)) { if (nspace.isEmpty()) { qFatal("Namesapce is empty."); } if (VContainer::_id.contains(nspace)) { qFatal("Namespace is not unique."); } if (not _id.contains(d->nspace)) { _id[d->nspace] = NULL_ID; } if (not _size.contains(d->nspace)) { _size[d->nspace] = 50; } if (not _height.contains(d->nspace)) { _height[d->nspace] = 176; } if (not uniqueNames.contains(d->nspace)) { uniqueNames[d->nspace] = QSet(); } if (not copyCounter.contains(d->nspace)) { copyCounter[d->nspace] = 1; } } //--------------------------------------------------------------------------------------------------------------------- /** * @brief operator = copy constructor * @param data container * @return copy container */ VContainer &VContainer::operator =(const VContainer &data) { if ( &data == this ) { return *this; } d = data.d; ++copyCounter[d->nspace]; return *this; } //--------------------------------------------------------------------------------------------------------------------- /** * @brief VContainer create container from another container * @param data container */ VContainer::VContainer(const VContainer &data) :d(data.d) { ++copyCounter[d->nspace]; } //--------------------------------------------------------------------------------------------------------------------- VContainer::~VContainer() {} //--------------------------------------------------------------------------------------------------------------------- QString VContainer::UniqueNamespace() { QString candidate; do { candidate = QUuid::createUuid().toString(); } while(_size.contains(candidate)); return candidate; } //--------------------------------------------------------------------------------------------------------------------- void VContainer::ClearNamespace(const QString &nspace) { _id.remove(nspace); _size.remove(nspace); _height.remove(nspace); uniqueNames.remove(nspace); } //--------------------------------------------------------------------------------------------------------------------- /** * @brief GetGObject returns a point by id * @param id id of point * @return point */ // cppcheck-suppress unusedFunction const QSharedPointer VContainer::GetGObject(quint32 id) const { if (d->calculationObjects.contains(id)) { return d->calculationObjects.value(id); } else if (d->modelingObjects->contains(id)) { return d->modelingObjects->value(id); } else { throw VExceptionBadId(tr("Can't find object"), id); } } //--------------------------------------------------------------------------------------------------------------------- const QSharedPointer VContainer::GetFakeGObject(quint32 id) { VGObject *obj = new VGObject(); obj->setId(id); QSharedPointer pointer(obj); return pointer; } //--------------------------------------------------------------------------------------------------------------------- VPiece VContainer::GetPiece(quint32 id) const { if (d->pieces->contains(id)) { return d->pieces->value(id); } else { throw VExceptionBadId(tr("Can't find object"), id); } } //--------------------------------------------------------------------------------------------------------------------- VPiecePath VContainer::GetPiecePath(quint32 id) const { if (d->piecePaths->contains(id)) { return d->piecePaths->value(id); } else { throw VExceptionBadId(tr("Can't find object"), id); } } //--------------------------------------------------------------------------------------------------------------------- quint32 VContainer::GetPieceForPiecePath(quint32 id) const { auto i = d->pieces->constBegin(); while (i != d->pieces->constEnd()) { if (i.value().GetInternalPaths().contains(id)) { return i.key(); } ++i; } return NULL_ID; } //--------------------------------------------------------------------------------------------------------------------- /** * @brief AddGObject add new GObject to container * @param obj new object * @return return id of new object in container */ quint32 VContainer::AddGObject(VGObject *obj) { SCASSERT(obj != nullptr) QSharedPointer pointer(obj); return AddGObject(pointer); } //--------------------------------------------------------------------------------------------------------------------- quint32 VContainer::AddGObject(const QSharedPointer &obj) { SCASSERT(not obj.isNull()) if (obj->getMode() == Draw::Layout) { qWarning("Can't add an object with mode 'Layout'"); return NULL_ID; } uniqueNames[d->nspace].insert(obj->name()); const quint32 id = getNextId(); obj->setId(id); if (obj->getMode() == Draw::Calculation) { d->calculationObjects.insert(id, obj); } else if (obj->getMode() == Draw::Modeling) { d->modelingObjects->insert(id, obj); } return id; } //--------------------------------------------------------------------------------------------------------------------- quint32 VContainer::AddPiece(const VPiece &detail) { const quint32 id = getNextId(); d->pieces->insert(id, detail); return id; } //--------------------------------------------------------------------------------------------------------------------- quint32 VContainer::AddPiecePath(const VPiecePath &path) { const quint32 id = getNextId(); d->piecePaths->insert(id, path); return id; } //--------------------------------------------------------------------------------------------------------------------- quint32 VContainer::getId() const { return _id.value(d->nspace); } //--------------------------------------------------------------------------------------------------------------------- /** * @brief getNextId generate next unique id * @return next unique id */ quint32 VContainer::getNextId() const { //TODO. Current count of ids are very big and allow us save time before someone will reach its max value. //Better way, of cource, is to seek free ids inside the set of values and reuse them. //But for now better to keep it as it is now. if (_id.value(d->nspace) == UINT_MAX) { qCritical()<<(tr("Number of free id exhausted.")); } _id[d->nspace]++; return _id.value(d->nspace); } //--------------------------------------------------------------------------------------------------------------------- void VContainer::UpdateId(quint32 newId, const QString &nspace) { if (_id.contains(nspace)) { if (newId > _id.value(nspace)) { _id[nspace] = newId; } } else { throw VException(QStringLiteral("Unknown namespace")); } } //--------------------------------------------------------------------------------------------------------------------- /** * @brief UpdateId update id. If new id bigger when current save new like current. * @param newId id */ void VContainer::UpdateId(quint32 newId) const { VContainer::UpdateId(newId, d->nspace); } //--------------------------------------------------------------------------------------------------------------------- /** * @brief Clear clear data in container. Id will be 0. */ void VContainer::Clear() { qCDebug(vCon, "Clearing container data."); _id[d->nspace] = NULL_ID; d->pieces->clear(); d->piecePaths->clear(); ClearVariables(); ClearGObjects(); ClearUniqueNames(); } //--------------------------------------------------------------------------------------------------------------------- void VContainer::ClearForFullParse() { qCDebug(vCon, "Clearing container data for full parse."); _id[d->nspace] = NULL_ID; d->pieces->clear(); d->piecePaths->clear(); Q_STATIC_ASSERT_X(static_cast(VarType::Unknown) == 8, "Check that you used all types"); ClearVariables(QVector({VarType::Increment, VarType::LineAngle, VarType::LineLength, VarType::CurveLength, VarType::CurveCLength, VarType::ArcRadius, VarType::CurveAngle})); ClearGObjects(); ClearUniqueNames(); } //--------------------------------------------------------------------------------------------------------------------- /** * @brief ClearObject points, splines, arcs, spline paths will be cleared. */ void VContainer::ClearGObjects() { d->calculationObjects.clear(); d->modelingObjects->clear(); } //--------------------------------------------------------------------------------------------------------------------- void VContainer::ClearCalculationGObjects() { d->calculationObjects.clear(); } //--------------------------------------------------------------------------------------------------------------------- void VContainer::ClearVariables(const VarType &type) { ClearVariables(QVector({type})); } //--------------------------------------------------------------------------------------------------------------------- void VContainer::ClearVariables(const QVector &types) { if (not d->variables.isEmpty()) //-V807 { if (types.isEmpty() || types.contains(VarType::Unknown)) { d->variables.clear(); } else { QHash >::iterator i; for (i = d->variables.begin(); i != d->variables.end();) { if (types.contains(i.value()->GetType())) { i = d->variables.erase(i); } else { ++i; } } } } } //--------------------------------------------------------------------------------------------------------------------- /** * @brief AddLine add line to container * @param firstPointId id of first point of line * @param secondPointId id of second point of line */ void VContainer::AddLine(const quint32 &firstPointId, const quint32 &secondPointId) { const QSharedPointer first = GeometricObject(firstPointId); const QSharedPointer second = GeometricObject(secondPointId); VLengthLine *length = new VLengthLine(first.data(), firstPointId, second.data(), secondPointId, *GetPatternUnit()); AddVariable(length->GetName(), length); VLineAngle *angle = new VLineAngle(first.data(), firstPointId, second.data(), secondPointId); AddVariable(angle->GetName(), angle); } //--------------------------------------------------------------------------------------------------------------------- void VContainer::AddArc(const QSharedPointer &arc, const quint32 &id, const quint32 &parentId) { AddCurve(arc, id, parentId); if (arc->getType() == GOType::Arc) { const QSharedPointer casted = arc.staticCast(); VArcRadius *radius = new VArcRadius(id, parentId, casted.data(), *GetPatternUnit()); AddVariable(radius->GetName(), radius); } else if (arc->getType() == GOType::EllipticalArc) { const QSharedPointer casted = arc.staticCast(); VArcRadius *radius1 = new VArcRadius(id, parentId, casted.data(), 1, *GetPatternUnit()); AddVariable(radius1->GetName(), radius1); VArcRadius *radius2 = new VArcRadius(id, parentId, casted.data(), 2, *GetPatternUnit()); AddVariable(radius2->GetName(), radius2); VEllipticalArcRotation *rotation = new VEllipticalArcRotation(id, parentId, casted.data()); AddVariable(rotation->GetName(), rotation); } } //--------------------------------------------------------------------------------------------------------------------- void VContainer::AddCurve(const QSharedPointer &curve, const quint32 &id, quint32 parentId) { const GOType curveType = curve->getType(); if (curveType != GOType::Spline && curveType != GOType::SplinePath && curveType != GOType::CubicBezier && curveType != GOType::CubicBezierPath && curveType != GOType::Arc && curveType != GOType::EllipticalArc) { throw VException(tr("Can't create a curve with type '%1'").arg(static_cast(curveType))); } VCurveLength *length = new VCurveLength(id, parentId, curve.data(), *GetPatternUnit()); AddVariable(length->GetName(), length); VCurveAngle *startAngle = new VCurveAngle(id, parentId, curve.data(), CurveAngle::StartAngle); AddVariable(startAngle->GetName(), startAngle); VCurveAngle *endAngle = new VCurveAngle(id, parentId, curve.data(), CurveAngle::EndAngle); AddVariable(endAngle->GetName(), endAngle); } //--------------------------------------------------------------------------------------------------------------------- void VContainer::AddSpline(const QSharedPointer &curve, quint32 id, quint32 parentId) { AddCurve(curve, id, parentId); VCurveCLength *c1Length = new VCurveCLength(id, parentId, curve.data(), CurveCLength::C1, *GetPatternUnit()); AddVariable(c1Length->GetName(), c1Length); VCurveCLength *c2Length = new VCurveCLength(id, parentId, curve.data(), CurveCLength::C2, *GetPatternUnit()); AddVariable(c2Length->GetName(), c2Length); } //--------------------------------------------------------------------------------------------------------------------- void VContainer::AddCurveWithSegments(const QSharedPointer &curve, const quint32 &id, quint32 parentId) { AddSpline(curve, id, parentId); for (qint32 i = 1; i <= curve->CountSubSpl(); ++i) { const VSpline spl = curve->GetSpline(i); VCurveLength *length = new VCurveLength(id, parentId, curve->name(), spl, *GetPatternUnit(), i); AddVariable(length->GetName(), length); VCurveAngle *startAngle = new VCurveAngle(id, parentId, curve->name(), spl, CurveAngle::StartAngle, i); AddVariable(startAngle->GetName(), startAngle); VCurveAngle *endAngle = new VCurveAngle(id, parentId, curve->name(), spl, CurveAngle::EndAngle, i); AddVariable(endAngle->GetName(), endAngle); VCurveCLength *c1Length = new VCurveCLength(id, parentId, curve->name(), spl, CurveCLength::C1, *GetPatternUnit(), i); AddVariable(c1Length->GetName(), c1Length); VCurveCLength *c2Length = new VCurveCLength(id, parentId, curve->name(), spl, CurveCLength::C2, *GetPatternUnit(), i); AddVariable(c2Length->GetName(), c2Length); } } //--------------------------------------------------------------------------------------------------------------------- void VContainer::RemoveVariable(const QString &name) { d->variables.remove(name); } //--------------------------------------------------------------------------------------------------------------------- void VContainer::RemovePiece(quint32 id) { d->pieces->remove(id); } //--------------------------------------------------------------------------------------------------------------------- void VContainer::UpdatePiece(quint32 id, const VPiece &detail) { Q_ASSERT_X(id != NULL_ID, Q_FUNC_INFO, "id == 0"); //-V654 //-V712 d->pieces->insert(id, detail); UpdateId(id); } //--------------------------------------------------------------------------------------------------------------------- void VContainer::UpdatePiecePath(quint32 id, const VPiecePath &path) { Q_ASSERT_X(id != NULL_ID, Q_FUNC_INFO, "id == 0"); //-V654 //-V712 d->piecePaths->insert(id, path); UpdateId(id); } //--------------------------------------------------------------------------------------------------------------------- /** * @brief RemoveIncrement remove increment by name from increment table * @param name name of existing increment */ void VContainer::RemoveIncrement(const QString &name) { d->variables[name].clear(); d->variables.remove(name); } //--------------------------------------------------------------------------------------------------------------------- const QMap > VContainer::DataMeasurements() const { return DataVar(VarType::Measurement); } //--------------------------------------------------------------------------------------------------------------------- const QMap > VContainer::DataIncrements() const { return DataVar(VarType::Increment); } //--------------------------------------------------------------------------------------------------------------------- const QMap > VContainer::DataLengthLines() const { return DataVar(VarType::LineLength); } //--------------------------------------------------------------------------------------------------------------------- const QMap > VContainer::DataLengthCurves() const { return DataVar(VarType::CurveLength); } //--------------------------------------------------------------------------------------------------------------------- const QMap > VContainer::DataCurvesCLength() const { return DataVar(VarType::CurveCLength); } //--------------------------------------------------------------------------------------------------------------------- const QMap > VContainer::DataAngleLines() const { return DataVar(VarType::LineAngle); } //--------------------------------------------------------------------------------------------------------------------- const QMap > VContainer::DataRadiusesArcs() const { return DataVar(VarType::ArcRadius); } //--------------------------------------------------------------------------------------------------------------------- const QMap > VContainer::DataAnglesCurves() const { return DataVar(VarType::CurveAngle); } //--------------------------------------------------------------------------------------------------------------------- bool VContainer::IsUnique(const QString &name) const { return VContainer::IsUnique(name, d->nspace); } //--------------------------------------------------------------------------------------------------------------------- bool VContainer::IsUnique(const QString &name, const QString &nspace) { if (uniqueNames.contains(nspace)) { return (!uniqueNames.value(nspace).contains(name) && !builInFunctions.contains(name)); } else { throw VException(QStringLiteral("Unknown namespace")); } } //--------------------------------------------------------------------------------------------------------------------- QStringList VContainer::AllUniqueNames() const { return AllUniqueNames(d->nspace); } //--------------------------------------------------------------------------------------------------------------------- QStringList VContainer::AllUniqueNames(const QString &nspace) { if (uniqueNames.contains(nspace)) { QStringList names = builInFunctions; names.append(uniqueNames.value(nspace).toList()); return names; } else { throw VException(QStringLiteral("Unknown namespace")); } } //--------------------------------------------------------------------------------------------------------------------- const Unit *VContainer::GetPatternUnit() const { return d->patternUnit; } //--------------------------------------------------------------------------------------------------------------------- const VTranslateVars *VContainer::GetTrVars() const { return d->trVars; } //--------------------------------------------------------------------------------------------------------------------- template const QMap > VContainer::DataVar(const VarType &type) const { QMap > map; //Sorting QHash by id QHash >::const_iterator i; for (i = d->variables.constBegin(); i != d->variables.constEnd(); ++i) { if (i.value()->GetType() == type) { QSharedPointer var = GetVariable(i.key()); map.insert(d->trVars->VarToUser(i.key()), var); } } return map; } //--------------------------------------------------------------------------------------------------------------------- void VContainer::ClearUniqueNames() const { uniqueNames[d->nspace].clear(); } //--------------------------------------------------------------------------------------------------------------------- void VContainer::ClearUniqueIncrementNames() const { const QList list = uniqueNames.value(d->nspace).toList(); ClearUniqueNames(); for(auto &name : list) { if (not name.startsWith('#')) { uniqueNames[d->nspace].insert(name); } } } //--------------------------------------------------------------------------------------------------------------------- /** * @brief SetSize set value of size * @param size value of size */ void VContainer::SetSize(qreal size) const { _size[d->nspace] = size; } //--------------------------------------------------------------------------------------------------------------------- /** * @brief SetGrowth set value of growth * @param height value of height */ void VContainer::SetHeight(qreal height) const { _height[d->nspace] = height; } //--------------------------------------------------------------------------------------------------------------------- /** * @brief size return size * @return size in mm */ qreal VContainer::size() const { return VContainer::size(d->nspace); } //--------------------------------------------------------------------------------------------------------------------- qreal VContainer::size(const QString &nspace) { if (_size.contains(nspace)) { return _size.value(nspace); } else { throw VException(QStringLiteral("Unknown namespace")); } } //--------------------------------------------------------------------------------------------------------------------- /** * @brief height return height * @return height in pattern units */ qreal VContainer::height() const { return VContainer::height(d->nspace); } //--------------------------------------------------------------------------------------------------------------------- qreal VContainer::height(const QString &nspace) { if (_height.contains(nspace)) { return _height.value(nspace); } else { throw VException(QStringLiteral("Unknown namespace")); } } //--------------------------------------------------------------------------------------------------------------------- /** * @brief data container with datagObjects return container of gObjects * @return pointer on container of gObjects */ const QHash > *VContainer::CalculationGObjects() const { return &d->calculationObjects; } //--------------------------------------------------------------------------------------------------------------------- const QHash *VContainer::DataPieces() const { return d->pieces.data(); } //--------------------------------------------------------------------------------------------------------------------- const QHash > *VContainer::DataVariables() const { return &d->variables; } //--------------------------------------------------------------------------------------------------------------------- VContainerData::~VContainerData() { if (ref.load() == 0) { --VContainer::copyCounter[nspace]; } if (VContainer::copyCounter.value(nspace) == 0) { VContainer::ClearNamespace(nspace); } }