valentina/src/test/ValentinaTest/tst_vellipticalarc.cpp
Roman Telezhynskyi 1d76a59ae7 Rotation VPointF, VArc, VCubicBezier and VCubicBezierPath.
--HG--
branch : feature
2016-04-10 14:40:04 +03:00

458 lines
24 KiB
C++

/************************************************************************
**
** @file tst_vellipticalarc.cpp
** @author Valentina Zhuravska <zhuravska19(at)gmail.com>
** @date 12 2, 2016
**
** @brief
** @copyright
** This source code is part of the Valentine project, a pattern making
** program, whose allow create and modeling patterns of clothing.
** Copyright (C) 2015 Valentina project
** <https://bitbucket.org/dismine/valentina> 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 <http://www.gnu.org/licenses/>.
**
*************************************************************************/
#include "tst_vellipticalarc.h"
#include "../vgeometry/vellipticalarc.h"
#include "../vlayout/vabstractdetail.h"
#include "../vmisc/logging.h"
#include <QtTest>
//---------------------------------------------------------------------------------------------------------------------
TST_VEllipticalArc::TST_VEllipticalArc(QObject *parent) : QObject(parent)
{}
//---------------------------------------------------------------------------------------------------------------------
void TST_VEllipticalArc::CompareTwoWays_data()
{
QTest::addColumn<QPointF>("c");
QTest::addColumn<qreal>("radius1");
QTest::addColumn<qreal>("radius2");
QTest::addColumn<qreal>("f1");
QTest::addColumn<qreal>("f2");
QTest::addColumn<qreal>("rotationAngle");
//QTest::newRow("Test case 1") << QPointF() << 100. << 200. << 0. << 90.0 << 0.;
QTest::newRow("Test case 2") << QPointF() << 100. << 200. << 0. << 180.0 << 0.;
QTest::newRow("Test case 3") << QPointF() << 100. << 200. << 0. << 270.0 << 0.;
QTest::newRow("Test case 4") << QPointF() << 100. << 200. << 0. << 360.0 << 0.;
QTest::newRow("Test case 5") << QPointF(10, 10) << 100. << 200. << 0. << 90.0 << 80.;
QTest::newRow("Test case 6") << QPointF(10, 10) << 100. << 200. << 0. << 180.0 << 80.;
QTest::newRow("Test case 7") << QPointF(10, 10) << 100. << 200. << 0. << 270.0 << 80.;
QTest::newRow("Test case 8") << QPointF(10, 10) << 100. << 200. << 0. << 360.0 << 80.;
QTest::newRow("Test case 9") << QPointF() << 100. << 200. << 0. << 90.0 << 80.;
QTest::newRow("Test case 10") << QPointF() << 100. << 200. << 0. << 180.0 << 80.;
QTest::newRow("Test case 11") << QPointF() << 100. << 200. << 0. << 270.0 << 80.;
QTest::newRow("Test case 12") << QPointF() << 100. << 200. << 0. << 360.0 << 80.;
QTest::newRow("Test case 13") << QPointF(10, 10) << 100. << 200. << 0. << 90.0 << 80.;
QTest::newRow("Test case 14") << QPointF(10, 10) << 100. << 200. << 0. << 180.0 << 80.;
QTest::newRow("Test case 15") << QPointF(10, 10) << 100. << 200. << 0. << 270.0 << 80.;
QTest::newRow("Test case 16") << QPointF(10, 10) << 100. << 200. << 0. << 360.0 << 80.;
}
//---------------------------------------------------------------------------------------------------------------------
// cppcheck-suppress unusedFunction
void TST_VEllipticalArc::CompareTwoWays()
{
QFETCH(QPointF, c);
QFETCH(qreal, radius1);
QFETCH(qreal, radius2);
QFETCH(qreal, f1);
QFETCH(qreal, f2);
QFETCH(qreal, rotationAngle);
const VPointF center(c);
VEllipticalArc arc1(center, radius1, radius2, f1, f2, rotationAngle);
const qreal length = arc1.GetLength();
VEllipticalArc arc2(length, center, radius1, radius2, f1, rotationAngle);
const qreal lengthEps = ToPixel(0.1, Unit::Mm); // computing error
const QString errorLengthMsg =
QString("Difference between real and computing lengthes bigger than eps = %1.").number(lengthEps);
QVERIFY2(qAbs(arc1.GetLength() - length) <= lengthEps, qUtf8Printable(errorLengthMsg));
QVERIFY2(qAbs(arc2.GetLength() - length) <= lengthEps, qUtf8Printable(errorLengthMsg));
QVERIFY2(qAbs(arc1.GetLength() - arc2.GetLength()) <= lengthEps, qUtf8Printable(errorLengthMsg));
const qreal angleEps = 0.4;
const QString errorAngleMsg =
QString("Difference between real and computing angles bigger than eps = %1.").number(angleEps);
// compare angles
QVERIFY2(qAbs(arc1.GetEndAngle() - arc2.GetEndAngle()) <= angleEps, qUtf8Printable(errorAngleMsg));
QVERIFY2(qAbs(arc1.GetEndAngle() - f2) <= angleEps, qUtf8Printable(errorAngleMsg));
QVERIFY2(qAbs(arc1.GetEndAngle() - f2) <= angleEps, qUtf8Printable(errorAngleMsg));
}
//---------------------------------------------------------------------------------------------------------------------
// cppcheck-suppress unusedFunction
void TST_VEllipticalArc::NegativeArc()
{
const VPointF center;
const qreal radius1 = 100;
const qreal radius2 = 200;
const qreal f1 = 1;
const qreal f2 = 181;
const qreal rotationAngle = 0;
// Full ellipse
const qreal h = ((radius1-radius2)*(radius1-radius2))/((radius1+radius2)*(radius1+radius2));
const qreal length = M_PI*(radius1+radius2)*(1+3*h/(10+qSqrt(4-3*h)))/2;
VEllipticalArc arc(-length, center, radius1, radius2, f1, rotationAngle);
const qreal eps = 1; // computing error
const QString errorMsg =
QString("Difference between real and computing lengthes bigger than eps = %1.").number(eps);
QVERIFY2(qAbs(arc.GetLength() + length) <= eps, qUtf8Printable(errorMsg));
QVERIFY2(arc.GetEndAngle() - f2 <= eps, qUtf8Printable(errorMsg));
}
// cppcheck-suppress unusedFunction
//---------------------------------------------------------------------------------------------------------------------
void TST_VEllipticalArc::TestGetPoints1_data()
{
TestData();
}
//---------------------------------------------------------------------------------------------------------------------
void TST_VEllipticalArc::TestGetPoints2_data()
{
TestData();
}
//---------------------------------------------------------------------------------------------------------------------
void TST_VEllipticalArc::TestGetPoints3_data()
{
TestData();
}
//---------------------------------------------------------------------------------------------------------------------
void TST_VEllipticalArc::TestGetPoints4_data()
{
TestData();
}
//---------------------------------------------------------------------------------------------------------------------
void TST_VEllipticalArc::TestData()
{
QTest::addColumn<qreal>("radius1");
QTest::addColumn<qreal>("radius2");
QTest::addColumn<qreal>("startAngle");
QTest::addColumn<qreal>("endAngle");
QTest::addColumn<qreal>("rotationAngle");
QTest::newRow("Full circle: radiuses 10, 20") << 10.0 << 20.0 << 0.0 << 360.0 << 0.0;
QTest::newRow("Full circle: radiuses 150, 200") << 150.0 << 200.0 << 0.0 << 360.0 << 0.0;
QTest::newRow("Full circle: radiuses 150, 200, rotation 30") << 150.0 << 200.0 << 0.0 << 360.0 << 30.0;
QTest::newRow("Full circle: radiuses 1500, 1000") << 1500.0 << 1000.0 << 0.0 << 360.0 << 0.0;
QTest::newRow("Full circle: radiuses 1500, 1000, rotation 50") << 1500.0 << 1000.0 << 0.0 << 360.0 << 50.0;
QTest::newRow("Full circle: radiuses 90000, 80000, rotation 90") << 90000.0 << 80000.0 << 0.0 << 360.0 << 90.0;
QTest::newRow("Arc less than 45 degree, radiuses 100, 50") << 100.0 << 50.0 << 0.0 << 10.5 << 0.0;
QTest::newRow("Arc less than 45 degree, radiuses 150, 50, rotation 180") << 150.0 << 50.0 << 0.0 << 10.5 << 180.0;
QTest::newRow("Arc less than 45 degree, radiuses 1500, 800, rotation 90") << 1500.0 << 800.0 << 0.0 << 10.5 << 90.0;
QTest::newRow("Arc less than 45 degree, radiuses 50000, 10000, rotation 40")
<< 50000.0 << 10000.0 << 0.0 << 10.5 << 40.0;
QTest::newRow("Arc less than 45 degree, radiuses 90000, 10000") << 90000.0 << 10000.0 << 0.0 << 10.5 << 0.0;
QTest::newRow("Arc 45 degree, radiuses 100, 50, rotation 45") << 100.0 << 50.0 << 0.0 << 45.0 << 45.0;
QTest::newRow("Arc 45 degree, radiuses 150, 15, rotation 30") << 150.0 << 15.0 << 0.0 << 45.0 << 30.0;
QTest::newRow("Arc 45 degree, radiuses 1500, 150, rotation 45") << 1500.0 << 150.0 << 0.0 << 45.0 << 45.0;
QTest::newRow("Arc 45 degree, radiuses 50000, 50000") << 50000.0 << 50000.0 << 0.0 << 45.0 << 0.0;
QTest::newRow("Arc 45 degree, radiuses 90000, 50000, rotation 270") << 90000.0 << 50000.0 << 0.0 << 45.0 << 270.0;
QTest::newRow("Arc less than 90 degree, radiuses 100, 400, rotation 50") << 100.0 << 400.0 << 0.0 << 75.0 << 50.0;
QTest::newRow("Arc less than 90 degree, radiuses 150, 400, rotation 90") << 150.0 << 400.0 << 0.0 << 75.0 << 90.0;
QTest::newRow("Arc less than 90 degree, radiuses 1500, 50000, rotation 180")
<< 1500.0 << 50000.0 << 0.0 << 75.0 << 180.0;
QTest::newRow("Arc less than 90 degree, radiuses 50000, 5000, rotation 30")
<< 50000.0 << 5000.0 << 0.0 << 75.0 << 30.0;
QTest::newRow("Arc less than 90 degree, radiuses 90000, 50000, rotation 30")
<< 90000.0 << 50000.0 << 0.0 << 75.0 << 30.0;
QTest::newRow("Arc 90 degree, radiuses 100, 50, rotation 30") << 100.0 << 50.0 << 0.0 << 90.0 << 30.0;
QTest::newRow("Arc 90 degree, radiuses 150, 400") << 150.0 << 400.0 << 0.0 << 90.0 << 0.0;
QTest::newRow("Arc 90 degree, radiuses 1500, 800, rotation 70") << 1500.0 << 800.0 << 0.0 << 90.0 << 70.0;
QTest::newRow("Arc 90 degree, radiuses 50000, 5000, rotation 30") << 50000.0 << 5000.0 << 0.0 << 90.0 << 30.0;
QTest::newRow("Arc 90 degree, radiuses 90000, 50000, rotation 235") << 90000.0 << 50000.0 << 0.0 << 90.0 << 235.0;
QTest::newRow("Arc less than 135 degree, radiuses 100, 50, rotation 60") << 100.0 << 50.0 << 0.0 << 110.6 << 60.0;
QTest::newRow("Arc less than 135 degree, radiuses 150, 400, rotation 300")
<< 150.0 << 400.0 << 0.0 << 110.6 << 300.0;
QTest::newRow("Arc less than 135 degree, radiuses 1500, 800, rotation 360")
<< 1500.0 << 800.0 << 0.0 << 110.6 << 360.0;
QTest::newRow("Arc less than 135 degree, radiuses 50000, 5000, rotation 290")
<< 50000.0 << 5000.0 << 0.0 << 110.6 << 290.0;
QTest::newRow("Arc less than 135 degree, radiuses 90000, 50000") << 90000.0 << 50000.0 << 0.0 << 110.6 << 0.0;
QTest::newRow("Arc 135 degree, radiuses 100, 50") << 100.0 << 50.0 << 0.0 << 135.0 << 0.0;
QTest::newRow("Arc 135 degree, radiuses 150, 400") << 150.0 << 400.0 << 0.0 << 135.0 << 0.0;
QTest::newRow("Arc 135 degree, radiuses 1500, 800") << 1500.0 << 800.0 << 0.0 << 135.0 << 0.0;
QTest::newRow("Arc 135 degree, radiuses 50000, 5000, rotation 20") << 50000.0 << 5000.0 << 0.0 << 135.0 << 20.0;
QTest::newRow("Arc 135 degree, radiuses 90000, 50000") << 90000.0 << 50000.0 << 0.0 << 135.0 << 0.0;
QTest::newRow("Arc less than 180 degree, radiuses 100, 50") << 100.0 << 50.0 << 0.0 << 160.7 << 0.0;
QTest::newRow("Arc less than 180 degree, radiuses 150, 400") << 150.0 << 400.0 << 0.0 << 160.7 << 0.0;
QTest::newRow("Arc less than 180 degree, radiuses 1500, 800") << 1500.0 << 800.0 << 0.0 << 160.7 << 0.0;
QTest::newRow("Arc less than 180 degree, radiuses 50000, 5000, rotation 270")
<< 50000.0 << 5000.0 << 0.0 << 160.7 << 270.0;
QTest::newRow("Arc less than 180 degree, radiuses 90000, 50000") << 90000.0 << 50000.0 << 0.0 << 160.7 << 0.0;
QTest::newRow("Arc 180 degree, radiuses 100, 50") << 100.0 << 50.0 << 0.0 << 180.0 << 0.0;
QTest::newRow("Arc 180 degree, radiuses 150, 400") << 150.0 << 400.0 << 0.0 << 180.0 << 0.0;
QTest::newRow("Arc 180 degree, radiuses 1500, 800") << 1500.0 << 800.0 << 0.0 << 180.0 << 0.0;
QTest::newRow("Arc 180 degree, radiuses 50000, 5000, rotation 60") << 50000.0 << 5000.0 << 0.0 << 180.0 << 60.0;
QTest::newRow("Arc 180 degree, radiuses 90000, 50000") << 90000.0 << 50000.0 << 0.0 << 180.0 << 0.0;
QTest::newRow("Arc less than 270 degree, radiuses 100, 50") << 100.0 << 50.0 << 0.0 << 150.3 << 0.0;
QTest::newRow("Arc less than 270 degree, radiuses 150, 400") << 150.0 << 400.0 << 0.0 << 150.3 << 0.0;
QTest::newRow("Arc less than 270 degree, radiuses 1500, 800") << 1500.0 << 800.0 << 0.0 << 150.3 << 0.0;
QTest::newRow("Arc less than 270 degree, radiuses 50000, 5000, rotation 20")
<< 50000.0 << 5000.0 << 0.0 << 150.3 << 20.0;
QTest::newRow("Arc less than 270 degree, radiuses 90000, 50000") << 90000.0 << 50000.0 << 0.0 << 150.3 << 0.0;
QTest::newRow("Arc 270 degree, radiuses 100, 50") << 100.0 << 50.0 << 0.0 << 270.0 << 0.0;
QTest::newRow("Arc 270 degree, radiuses 150, 400") << 150.0 << 400.0 << 0.0 << 270.0 << 0.0;
QTest::newRow("Arc 270 degree, radiuses 1500, 800") << 1500.0 << 800.0 << 0.0 << 270.0 << 0.0;
QTest::newRow("Arc 270 degree, radiuses 50000, 5000, rotation 90") << 50000.0 << 5000.0 << 0.0 << 270.0 << 90.0;
QTest::newRow("Arc 270 degree, radiuses 90000, 50000") << 90000.0 << 50000.0 << 0.0 << 270.0 << 0.0;
QTest::newRow("Arc less than 360 degree, radiuses 100, 50") << 100.0 << 50.0 << 0.0 << 340.0 << 0.0;
QTest::newRow("Arc less than 360 degree, radiuses 150, 400") << 150.0 << 400.0 << 0.0 << 340.0 << 0.0;
QTest::newRow("Arc less than 360 degree, radiuses 1500, 800") << 1500.0 << 800.0 << 0.0 << 340.0 << 0.0;
QTest::newRow("Arc less than 360 degree, radiuses 50000, 5000, rotation 30")
<< 50000.0 << 5000.0 << 0.0 << 340.0 << 30.0;
QTest::newRow("Arc less than 360 degree, radiuses 90000, 50000") << 90000.0 << 50000.0 << 0.0 << 340.0 << 0.0;
QTest::newRow("Arc start 90 degree, angle 45 degree, radiuses 100, 50") << 100.0 << 50.0 << 90.0 << 135.0 << 0.0;
QTest::newRow("Arc start 90 degree, angle 45 degree, radiuses 150, 400") << 150.0 << 400.0 << 90.0 << 135.0 << 0.0;
QTest::newRow("Arc start 90 degree, angle 45 degree, radiuses 1500, 800")
<< 1500.0 << 800.0 << 90.0 << 135.0 << 0.0;
QTest::newRow("Arc start 90 degree, angle 45 degree, radiuses 50000, 5000")
<< 50000.0 << 5000.0 << 90.0 << 135.0 << 0.0;
QTest::newRow("Arc start 90 degree, angle 45 degree, radiuses 90000, 50000")
<< 90000.0 << 50000.0 << 90.0 << 135.0 << 0.0;
}
//---------------------------------------------------------------------------------------------------------------------
// cppcheck-suppress unusedFunction
void TST_VEllipticalArc::TestGetPoints1()
{
//Any point must satisfy the equation of ellipse
QFETCH(qreal, radius1);
QFETCH(qreal, radius2);
QFETCH(qreal, startAngle);
QFETCH(qreal, endAngle);
QFETCH(qreal, rotationAngle);
const VPointF center;
VEllipticalArc arc(center, radius1, radius2, startAngle, endAngle, rotationAngle);
QVector<QPointF> points = arc.GetPoints();
if (qFuzzyIsNull(rotationAngle))
{ // equation of ellipse will be different when rotation angle isn't 0 so we can't use this test in this case
const qreal eps = 0.05;
for (int i=0; i < points.size(); ++i)
{
QPointF p = points.at(i);
const qreal equationRes = p.rx()*p.rx()/(radius1*radius1) + p.ry()*p.ry()/(radius2*radius2);
const qreal diff = qAbs(equationRes - 1);
const QString errorMsg = QString("Broken the first rule. Any point must satisfy the equation of ellipse."
"diff = '%1' > eps = '%2'").number(diff).number(eps);
QVERIFY2( diff <= eps, qUtf8Printable(errorMsg));
}
}
}
//---------------------------------------------------------------------------------------------------------------------
// cppcheck-suppress unusedFunction
void TST_VEllipticalArc::TestGetPoints2()
{
// Distance from the any point to the focus1 plus distance from this point to the focus2 should be the same.
QFETCH(qreal, radius1);
QFETCH(qreal, radius2);
QFETCH(qreal, startAngle);
QFETCH(qreal, endAngle);
QFETCH(qreal, rotationAngle);
const VPointF center;
VEllipticalArc arc(center, radius1, radius2, startAngle, endAngle, rotationAngle);
QVector<QPointF> points = arc.GetPoints();
const qreal c = qSqrt(qAbs(radius2*radius2 - radius1*radius1));
// distance from the center to the focus
QPointF focus1 = center.toQPointF();
QPointF focus2 = center.toQPointF();
if (radius1 < radius2)
{
focus1.setY(focus1.ry() + c);
QLineF line(center.toQPointF(), focus1);
line.setAngle(line.angle() + rotationAngle);
focus1 = line.p2();
focus2.setY(focus2.ry() - c);
line.setP2(focus2);
line.setAngle(line.angle() + rotationAngle);
focus2 = line.p2();
}
else
{
focus1.setX(focus1.rx() + c);
QLineF line(center.toQPointF(), focus1);
line.setAngle(line.angle() + rotationAngle);
focus1 = line.p2();
focus2.setX(focus2.rx() - c);
line.setP2(focus2);
line.setAngle(line.angle() + rotationAngle);
focus2 = line.p2();
}
QPointF ellipsePoint(center.x() + radius1, center.y());
QLineF line(center.toQPointF(), ellipsePoint);
line.setAngle(line.angle() + rotationAngle);
ellipsePoint = line.p2();
const QLineF distance1(focus1, ellipsePoint);
const QLineF distance2(focus2, ellipsePoint);
const qreal distance = distance1.length() + distance2.length();
const qreal eps = distance * 1.1 / 100; // computing error 1.1 % from origin distance
for (int i=0; i < points.size(); ++i)
{
const QLineF rLine1(focus1, points.at(i));
const QLineF rLine2(focus2, points.at(i));
const qreal resultingDistance = rLine1.length()+rLine2.length();
const qreal diff = qAbs(resultingDistance - distance);
const QString errorMsg = QString("Broken the first rule, part 2. Distance from the any point to the focus1"
" plus distance from this point to the focus2 should be the same. Problem"
" with point '%1'. The disired distance is '%2', but resulting distance"
" is '%3'. Difference is '%4' and it biggest than eps '%5')").number(i)
.number(distance).number(resultingDistance).number(diff).number(eps);
QVERIFY2( diff <= eps, qUtf8Printable(errorMsg));
}
}
//---------------------------------------------------------------------------------------------------------------------
// cppcheck-suppress unusedFunction
void TST_VEllipticalArc::TestGetPoints3()
{
// Compare full ellipse square with square of VAbstractDetail
QFETCH(qreal, radius1);
QFETCH(qreal, radius2);
QFETCH(qreal, startAngle);
QFETCH(qreal, endAngle);
QFETCH(qreal, rotationAngle);
const VPointF center;
VEllipticalArc arc(center, radius1, radius2, startAngle, endAngle, rotationAngle);
QVector<QPointF> points = arc.GetPoints();
if (VFuzzyComparePossibleNulls(arc.AngleArc(), 360.0))
{// calculated full ellipse square
const qreal ellipseSquare = M_PI * radius1 * radius2;
const qreal epsSquare = ellipseSquare * 0.5 / 100; // computing error 0.5 % from origin squere
const qreal arcSquare = qAbs(VAbstractDetail::SumTrapezoids(points)/2.0);
const qreal diffSquare = qAbs(ellipseSquare - arcSquare);
const QString errorMsg1 = QString("Broken the second rule. Interpolation has too big computing error. "
"Difference ='%1' bigger than eps = '%2'.").arg(diffSquare).arg(epsSquare);
QVERIFY2(diffSquare <= epsSquare, qUtf8Printable(errorMsg1));
}
}
//---------------------------------------------------------------------------------------------------------------------
// cppcheck-suppress unusedFunction
void TST_VEllipticalArc::TestGetPoints4()
{
// Compare real full ellipse length with calculated
QFETCH(qreal, radius1);
QFETCH(qreal, radius2);
QFETCH(qreal, startAngle);
QFETCH(qreal, endAngle);
QFETCH(qreal, rotationAngle);
const VPointF center;
VEllipticalArc arc(center, radius1, radius2, startAngle, endAngle, rotationAngle);
if (VFuzzyComparePossibleNulls(arc.AngleArc(), 360.0))
{// calculated full ellipse length
const qreal h = ((radius1-radius2)*(radius1-radius2))/((radius1+radius2)*(radius1+radius2));
const qreal ellipseLength = M_PI*(radius1+radius2)*(1+3*h/(10+qSqrt(4-3*h)));
const qreal epsLength = ellipseLength*0.5/100; // computing error
VEllipticalArc arc(center, radius1, radius2, 0, 360, 0);
const qreal arcLength = arc.GetLength();
const qreal diffLength = qAbs(arcLength - ellipseLength);
const QString errorMsg2 = QString("Difference between real and computing lengthes "
"(diff = '%1') bigger than eps = '%2'.").arg(diffLength).arg(epsLength);
QVERIFY2(diffLength <= epsLength, qUtf8Printable(errorMsg2));
}
}
//---------------------------------------------------------------------------------------------------------------------
void TST_VEllipticalArc::TestRotation_data()
{
QTest::addColumn<QPointF>("center");
QTest::addColumn<qreal>("radius1");
QTest::addColumn<qreal>("radius2");
QTest::addColumn<qreal>("startAngle");
QTest::addColumn<qreal>("endAngle");
QTest::addColumn<qreal>("rotationAngle");
QTest::addColumn<QPointF>("rotatePoint");
QTest::addColumn<qreal>("degrees");
QTest::addColumn<QString>("prefix");
QTest::newRow("Test el arc 1") << QPointF() << 10. << 20.0 << 1. << 91. << 0.<< QPointF() << 90. << "_r";
QTest::newRow("Test el arc 2") << QPointF() << 10. << 20.0 << 0. << 90. << 0.<< QPointF() << 90. << "_r";
QTest::newRow("Test el arc 3") << QPointF(10, 10) << 10. << 20.0 << 1. << 91. << 90.<< QPointF() << 90. << "_r";
QTest::newRow("Test el arc 4") << QPointF(10, 10) << 10. << 20.0 << 0. << 90. << 90.<< QPointF() << 90. << "_r";
QTest::newRow("Test el arc 5") << QPointF(10, 10) << 10. << 20.0 << 0. << 180. << 90.<< QPointF() << 90. << "_r";
QTest::newRow("Test el arc 6") << QPointF(10, 10) << 10. << 20.0 << 1. << 181. << 90.<< QPointF() << 90. << "_r";
QTest::newRow("Test el arc 7") << QPointF(10, 10) << 10. << 20.0 << 0. << 270. << 90.<< QPointF() << 90. << "_r";
QTest::newRow("Test el arc 8") << QPointF(10, 10) << 10. << 20.0 << 1. << 271. << 90.<< QPointF() << 90. << "_r";
QTest::newRow("Test el arc 9") << QPointF(10, 10) << 10. << 20.0 << 0. << 360. << 90.<< QPointF() << 90. << "_r";
}
//---------------------------------------------------------------------------------------------------------------------
void TST_VEllipticalArc::TestRotation()
{
QFETCH(QPointF, center);
QFETCH(qreal, radius1);
QFETCH(qreal, radius2);
QFETCH(qreal, startAngle);
QFETCH(qreal, endAngle);
QFETCH(qreal, rotationAngle);
QFETCH(QPointF, rotatePoint);
QFETCH(qreal, degrees);
QFETCH(QString, prefix);
const VEllipticalArc arcOrigin(VPointF(center), radius1, radius2, startAngle, endAngle, rotationAngle);
const VEllipticalArc rotatedArc = arcOrigin.Rotate(rotatePoint, degrees, prefix);
QVERIFY(qAbs(arcOrigin.AngleArc() - rotatedArc.AngleArc()) <= 0.4);
QVERIFY(qAbs(arcOrigin.GetLength() - rotatedArc.GetLength()) <= ToPixel(1, Unit::Mm));
QCOMPARE(arcOrigin.GetRadius1(), rotatedArc.GetRadius1());
QCOMPARE(arcOrigin.GetRadius2(), rotatedArc.GetRadius2());
QCOMPARE(arcOrigin.GetRotationAngle(), rotatedArc.GetRotationAngle());
const QString errorMsg = QString("The name doesn't contain the prefix '%1'.").arg(prefix);
QVERIFY2(rotatedArc.name().endsWith(prefix), qUtf8Printable(errorMsg));
}