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// SPDX-FileCopyrightText: 2003 Dominique Devriese <devriese@kde.org>
// SPDX-License-Identifier: GPL-2.0-or-later
#include "cubic_type.h"
#include "bogus_imp.h"
#include "cubic_imp.h"
#include "point_imp.h"
static const KLazyLocalizedString cubictpstatement = kli18n("Construct a cubic curve through this point");
static const KLazyLocalizedString cubicselectstatement = kli18n("Select a point for the new cubic to go through...");
static const struct ArgsParser::spec argsspecCubicB9P[] = {{PointImp::stype(), cubictpstatement, cubicselectstatement, true},
{PointImp::stype(), cubictpstatement, cubicselectstatement, true},
{PointImp::stype(), cubictpstatement, cubicselectstatement, true},
{PointImp::stype(), cubictpstatement, cubicselectstatement, true},
{PointImp::stype(), cubictpstatement, cubicselectstatement, true},
{PointImp::stype(), cubictpstatement, cubicselectstatement, true},
{PointImp::stype(), cubictpstatement, cubicselectstatement, true},
{PointImp::stype(), cubictpstatement, cubicselectstatement, true},
{PointImp::stype(), cubictpstatement, cubicselectstatement, true}};
KIG_INSTANTIATE_OBJECT_TYPE_INSTANCE(CubicB9PType)
CubicB9PType::CubicB9PType()
: ArgsParserObjectType("CubicB9P", argsspecCubicB9P, 9)
{
}
CubicB9PType::~CubicB9PType()
{
}
const CubicB9PType *CubicB9PType::instance()
{
static const CubicB9PType t;
return &t;
}
ObjectImp *CubicB9PType::calc(const Args &os, const KigDocument &) const
{
if (!margsparser.checkArgs(os, 2))
return new InvalidImp;
std::vector<Coordinate> points;
for (uint i = 0; i < os.size(); ++i)
points.push_back(static_cast<const PointImp *>(os[i])->coordinate());
CubicCartesianData d = calcCubicThroughPoints(points);
if (d.valid())
return new CubicImp(d);
else
return new InvalidImp;
}
static const ArgsParser::spec argsspecCubicNodeB6P[] = {{PointImp::stype(), cubictpstatement, cubicselectstatement, true},
{PointImp::stype(), cubictpstatement, cubicselectstatement, true},
{PointImp::stype(), cubictpstatement, cubicselectstatement, true},
{PointImp::stype(), cubictpstatement, cubicselectstatement, true},
{PointImp::stype(), cubictpstatement, cubicselectstatement, true},
{PointImp::stype(), cubictpstatement, cubicselectstatement, true}};
KIG_INSTANTIATE_OBJECT_TYPE_INSTANCE(CubicNodeB6PType)
CubicNodeB6PType::CubicNodeB6PType()
: ArgsParserObjectType("CubicNodeB6P", argsspecCubicNodeB6P, 6)
{
}
CubicNodeB6PType::~CubicNodeB6PType()
{
}
const CubicNodeB6PType *CubicNodeB6PType::instance()
{
static const CubicNodeB6PType t;
return &t;
}
ObjectImp *CubicNodeB6PType::calc(const Args &parents, const KigDocument &) const
{
if (!margsparser.checkArgs(parents, 2))
return new InvalidImp;
std::vector<Coordinate> points;
for (Args::const_iterator i = parents.begin(); i != parents.end(); ++i)
points.push_back(static_cast<const PointImp *>(*i)->coordinate());
CubicCartesianData d = calcCubicNodeThroughPoints(points);
if (d.valid())
return new CubicImp(d);
else
return new InvalidImp;
}
static const ArgsParser::spec argsspecCubicCuspB4P[] = {{PointImp::stype(), cubictpstatement, cubicselectstatement, true},
{PointImp::stype(), cubictpstatement, cubicselectstatement, true},
{PointImp::stype(), cubictpstatement, cubicselectstatement, true},
{PointImp::stype(), cubictpstatement, cubicselectstatement, true}};
KIG_INSTANTIATE_OBJECT_TYPE_INSTANCE(CubicCuspB4PType)
CubicCuspB4PType::CubicCuspB4PType()
: ArgsParserObjectType("CubicCuspB4P", argsspecCubicCuspB4P, 4)
{
}
CubicCuspB4PType::~CubicCuspB4PType()
{
}
const CubicCuspB4PType *CubicCuspB4PType::instance()
{
static const CubicCuspB4PType t;
return &t;
}
ObjectImp *CubicCuspB4PType::calc(const Args &parents, const KigDocument &) const
{
if (!margsparser.checkArgs(parents, 2))
return new InvalidImp;
std::vector<Coordinate> points;
for (Args::const_iterator i = parents.begin(); i != parents.end(); ++i)
points.push_back(static_cast<const PointImp *>(*i)->coordinate());
CubicCartesianData d = calcCubicCuspThroughPoints(points);
if (d.valid())
return new CubicImp(d);
else
return new InvalidImp;
}
static const ArgsParser::spec argsspecVerticalCubicB4P[] = {{PointImp::stype(), cubictpstatement, cubicselectstatement, true},
{PointImp::stype(), cubictpstatement, cubicselectstatement, true},
{PointImp::stype(), cubictpstatement, cubicselectstatement, true},
{PointImp::stype(), cubictpstatement, cubicselectstatement, true}};
KIG_INSTANTIATE_OBJECT_TYPE_INSTANCE(VerticalCubicB4PType)
VerticalCubicB4PType::VerticalCubicB4PType()
: ArgsParserObjectType("VerticalCubicB4P", argsspecVerticalCubicB4P, 4)
{
}
VerticalCubicB4PType::~VerticalCubicB4PType()
{
}
const VerticalCubicB4PType *VerticalCubicB4PType::instance()
{
static const VerticalCubicB4PType t;
return &t;
}
ObjectImp *VerticalCubicB4PType::calc(const Args &parents, const KigDocument &) const
{
if (!margsparser.checkArgs(parents, 2))
return new InvalidImp;
std::vector<Coordinate> points;
for (Args::const_iterator i = parents.begin(); i != parents.end(); ++i)
points.push_back(static_cast<const PointImp *>(*i)->coordinate());
CubicCartesianData d = calcCubicThroughPoints(points);
if (d.valid())
return new CubicImp(d);
else
return new InvalidImp;
}
const ObjectImpType *CubicB9PType::resultId() const
{
return CubicImp::stype();
}
const ObjectImpType *CubicNodeB6PType::resultId() const
{
return CubicImp::stype();
}
const ObjectImpType *CubicCuspB4PType::resultId() const
{
return CubicImp::stype();
}
const ObjectImpType *VerticalCubicB4PType::resultId() const
{
return CubicImp::stype();
}
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