/**************************************************************************** ** ** Copyright (C) 2012 Nokia Corporation and/or its subsidiary(-ies). ** All rights reserved. ** Contact: Nokia Corporation (qt-info@nokia.com) ** ** This file is part of the test suite of the Qt Toolkit. ** ** $QT_BEGIN_LICENSE:LGPL$ ** GNU Lesser General Public License Usage ** This file may be used under the terms of the GNU Lesser General Public ** License version 2.1 as published by the Free Software Foundation and ** appearing in the file LICENSE.LGPL included in the packaging of this ** file. Please review the following information to ensure the GNU Lesser ** General Public License version 2.1 requirements will be met: ** http://www.gnu.org/licenses/old-licenses/lgpl-2.1.html. ** ** In addition, as a special exception, Nokia gives you certain additional ** rights. These rights are described in the Nokia Qt LGPL Exception ** version 1.1, included in the file LGPL_EXCEPTION.txt in this package. ** ** GNU General Public License Usage ** Alternatively, this file may be used under the terms of the GNU General ** Public License version 3.0 as published by the Free Software Foundation ** and appearing in the file LICENSE.GPL included in the packaging of this ** file. Please review the following information to ensure the GNU General ** Public License version 3.0 requirements will be met: ** http://www.gnu.org/copyleft/gpl.html. ** ** Other Usage ** Alternatively, this file may be used in accordance with the terms and ** conditions contained in a signed written agreement between you and Nokia. ** ** ** ** ** ** $QT_END_LICENSE$ ** ****************************************************************************/ #include #include #include #ifndef M_2PI #define M_2PI 6.28318530717958647692528676655900576 #endif //TESTED_CLASS= //TESTED_FILES= class tst_QLine : public QObject { Q_OBJECT public: tst_QLine(); private slots: void testIntersection(); void testIntersection_data(); void testLength(); void testLength_data(); void testNormalVector(); void testNormalVector_data(); void testAngle(); void testAngle_data(); void testAngle2(); void testAngle2_data(); void testAngle3(); void testAngleTo(); void testAngleTo_data(); void testSet(); }; // Square root of two #define SQRT2 1.4142135623731 // Length of unit vector projected to x from 45 degrees #define UNITX_45 0.707106781186547 const qreal epsilon = sizeof(qreal) == sizeof(double) ? 1e-8 : 1e-4; tst_QLine::tst_QLine() { } void tst_QLine::testSet() { { QLine l; l.setP1(QPoint(1, 2)); l.setP2(QPoint(3, 4)); QCOMPARE(l.x1(), 1); QCOMPARE(l.y1(), 2); QCOMPARE(l.x2(), 3); QCOMPARE(l.y2(), 4); l.setPoints(QPoint(5, 6), QPoint(7, 8)); QCOMPARE(l.x1(), 5); QCOMPARE(l.y1(), 6); QCOMPARE(l.x2(), 7); QCOMPARE(l.y2(), 8); l.setLine(9, 10, 11, 12); QCOMPARE(l.x1(), 9); QCOMPARE(l.y1(), 10); QCOMPARE(l.x2(), 11); QCOMPARE(l.y2(), 12); } { QLineF l; l.setP1(QPointF(1, 2)); l.setP2(QPointF(3, 4)); QCOMPARE(l.x1(), 1.0); QCOMPARE(l.y1(), 2.0); QCOMPARE(l.x2(), 3.0); QCOMPARE(l.y2(), 4.0); l.setPoints(QPointF(5, 6), QPointF(7, 8)); QCOMPARE(l.x1(), 5.0); QCOMPARE(l.y1(), 6.0); QCOMPARE(l.x2(), 7.0); QCOMPARE(l.y2(), 8.0); l.setLine(9.0, 10.0, 11.0, 12.0); QCOMPARE(l.x1(), 9.0); QCOMPARE(l.y1(), 10.0); QCOMPARE(l.x2(), 11.0); QCOMPARE(l.y2(), 12.0); } } void tst_QLine::testIntersection_data() { QTest::addColumn("xa1"); QTest::addColumn("ya1"); QTest::addColumn("xa2"); QTest::addColumn("ya2"); QTest::addColumn("xb1"); QTest::addColumn("yb1"); QTest::addColumn("xb2"); QTest::addColumn("yb2"); QTest::addColumn("type"); QTest::addColumn("ix"); QTest::addColumn("iy"); QTest::newRow("parallel") << 1.0 << 1.0 << 3.0 << 4.0 << 5.0 << 6.0 << 7.0 << 9.0 << int(QLineF::NoIntersection) << 0.0 << 0.0; QTest::newRow("unbounded") << 1.0 << 1.0 << 5.0 << 5.0 << 0.0 << 4.0 << 3.0 << 4.0 << int(QLineF::UnboundedIntersection) << 4.0 << 4.0; QTest::newRow("bounded") << 1.0 << 1.0 << 5.0 << 5.0 << 0.0 << 4.0 << 5.0 << 4.0 << int(QLineF::BoundedIntersection) << 4.0 << 4.0; QTest::newRow("almost vertical") << 0.0 << 10.0 << 20.0000000000001 << 10.0 << 10.0 << 0.0 << 10.0 << 20.0 << int(QLineF::BoundedIntersection) << 10.0 << 10.0; QTest::newRow("almost horizontal") << 0.0 << 10.0 << 20.0 << 10.0 << 10.0000000000001 << 0.0 << 10.0 << 20.0 << int(QLineF::BoundedIntersection) << 10.0 << 10.0; QTest::newRow("task 241464") << 100.1599256468623 << 100.7861905065196 << 100.1599256468604 << -9999.78619050651 << 10.0 << 50.0 << 190.0 << 50.0 << int(QLineF::BoundedIntersection) << 100.1599256468622 << 50.0; QLineF baseA(0, -50, 0, 50); QLineF baseB(-50, 0, 50, 0); for (int i = 0; i < 1000; ++i) { QLineF a = QLineF::fromPolar(50, i); a.setP1(-a.p2()); QLineF b = QLineF::fromPolar(50, i * 0.997 + 90); b.setP1(-b.p2()); // make the qFuzzyCompare be a bit more lenient a = a.translated(1, 1); b = b.translated(1, 1); QTest::newRow(qPrintable(QString::fromLatin1("rotation-%0").arg(i))) << (double)a.x1() << (double)a.y1() << (double)a.x2() << (double)a.y2() << (double)b.x1() << (double)b.y1() << (double)b.x2() << (double)b.y2() << int(QLineF::BoundedIntersection) << 1.0 << 1.0; } } void tst_QLine::testIntersection() { QFETCH(double, xa1); QFETCH(double, ya1); QFETCH(double, xa2); QFETCH(double, ya2); QFETCH(double, xb1); QFETCH(double, yb1); QFETCH(double, xb2); QFETCH(double, yb2); QFETCH(int, type); QFETCH(double, ix); QFETCH(double, iy); QLineF a(xa1, ya1, xa2, ya2); QLineF b(xb1, yb1, xb2, yb2); QPointF ip; QLineF::IntersectType itype = a.intersect(b, &ip); QCOMPARE(int(itype), type); if (type != QLineF::NoIntersection) { QVERIFY(qAbs(ip.x() - ix) < epsilon); QVERIFY(qAbs(ip.y() - iy) < epsilon); } } void tst_QLine::testLength_data() { QTest::addColumn("x1"); QTest::addColumn("y1"); QTest::addColumn("x2"); QTest::addColumn("y2"); QTest::addColumn("length"); QTest::addColumn("lengthToSet"); QTest::addColumn("vx"); QTest::addColumn("vy"); QTest::newRow("[1,0]*2") << 0.0 << 0.0 << 1.0 << 0.0 << 1.0 << 2.0 << 2.0 << 0.0; QTest::newRow("[0,1]*2") << 0.0 << 0.0 << 0.0 << 1.0 << 1.0 << 2.0 << 0.0 << 2.0; QTest::newRow("[-1,0]*2") << 0.0 << 0.0 << -1.0 << 0.0 << 1.0 << 2.0 << -2.0 << 0.0; QTest::newRow("[0,-1]*2") << 0.0 << 0.0 << 0.0 << -1.0 << 1.0 << 2.0 << 0.0 << -2.0; QTest::newRow("[1,1]->|1|") << 0.0 << 0.0 << 1.0 << 1.0 << double(SQRT2) << 1.0 << double(UNITX_45) << double(UNITX_45); QTest::newRow("[-1,1]->|1|") << 0.0 << 0.0 << -1.0 << 1.0 << double(SQRT2) << 1.0 << double(-UNITX_45) << double(UNITX_45); QTest::newRow("[1,-1]->|1|") << 0.0 << 0.0 << 1.0 << -1.0 << double(SQRT2) << 1.0 << double(UNITX_45) << double(-UNITX_45); QTest::newRow("[-1,-1]->|1|") << 0.0 << 0.0 << -1.0 << -1.0 << double(SQRT2) << 1.0 << double(-UNITX_45) << double(-UNITX_45); QTest::newRow("[1,0]*2 (2,2)") << 2.0 << 2.0 << 3.0 << 2.0 << 1.0 << 2.0 << 2.0 << 0.0; QTest::newRow("[0,1]*2 (2,2)") << 2.0 << 2.0 << 2.0 << 3.0 << 1.0 << 2.0 << 0.0 << 2.0; QTest::newRow("[-1,0]*2 (2,2)") << 2.0 << 2.0 << 1.0 << 2.0 << 1.0 << 2.0 << -2.0 << 0.0; QTest::newRow("[0,-1]*2 (2,2)") << 2.0 << 2.0 << 2.0 << 1.0 << 1.0 << 2.0 << 0.0 << -2.0; QTest::newRow("[1,1]->|1| (2,2)") << 2.0 << 2.0 << 3.0 << 3.0 << double(SQRT2) << 1.0 << double(UNITX_45) << double(UNITX_45); QTest::newRow("[-1,1]->|1| (2,2)") << 2.0 << 2.0 << 1.0 << 3.0 << double(SQRT2) << 1.0 << double(-UNITX_45) << double(UNITX_45); QTest::newRow("[1,-1]->|1| (2,2)") << 2.0 << 2.0 << 3.0 << 1.0 << double(SQRT2) << 1.0 << double(UNITX_45) << double(-UNITX_45); QTest::newRow("[-1,-1]->|1| (2,2)") << 2.0 << 2.0 << 1.0 << 1.0 << double(SQRT2) << 1.0 << double(-UNITX_45) << double(-UNITX_45); } void tst_QLine::testLength() { QFETCH(double, x1); QFETCH(double, y1); QFETCH(double, x2); QFETCH(double, y2); QFETCH(double, length); QFETCH(double, lengthToSet); QFETCH(double, vx); QFETCH(double, vy); QLineF l(x1, y1, x2, y2); QCOMPARE(l.length(), qreal(length)); l.setLength(lengthToSet); QCOMPARE(l.length(), qreal(lengthToSet)); QCOMPARE(l.dx(), qreal(vx)); QCOMPARE(l.dy(), qreal(vy)); } void tst_QLine::testNormalVector_data() { QTest::addColumn("x1"); QTest::addColumn("y1"); QTest::addColumn("x2"); QTest::addColumn("y2"); QTest::addColumn("nvx"); QTest::addColumn("nvy"); QTest::newRow("[1, 0]") << 0.0 << 0.0 << 1.0 << 0.0 << 0.0 << -1.0; QTest::newRow("[-1, 0]") << 0.0 << 0.0 << -1.0 << 0.0 << 0.0 << 1.0; QTest::newRow("[0, 1]") << 0.0 << 0.0 << 0.0 << 1.0 << 1.0 << 0.0; QTest::newRow("[0, -1]") << 0.0 << 0.0 << 0.0 << -1.0 << -1.0 << 0.0; QTest::newRow("[2, 3]") << 2.0 << 3.0 << 4.0 << 6.0 << 3.0 << -2.0; } void tst_QLine::testNormalVector() { QFETCH(double, x1); QFETCH(double, y1); QFETCH(double, x2); QFETCH(double, y2); QFETCH(double, nvx); QFETCH(double, nvy); QLineF l(x1, y1, x2, y2); QLineF n = l.normalVector(); QCOMPARE(l.x1(), n.x1()); QCOMPARE(l.y1(), n.y1()); QCOMPARE(n.dx(), qreal(nvx)); QCOMPARE(n.dy(), qreal(nvy)); } void tst_QLine::testAngle_data() { QTest::addColumn("xa1"); QTest::addColumn("ya1"); QTest::addColumn("xa2"); QTest::addColumn("ya2"); QTest::addColumn("xb1"); QTest::addColumn("yb1"); QTest::addColumn("xb2"); QTest::addColumn("yb2"); QTest::addColumn("angle"); QTest::newRow("parallel") << 1.0 << 1.0 << 3.0 << 4.0 << 5.0 << 6.0 << 7.0 << 9.0 << 0.0; QTest::newRow("[4,4]-[4,0]") << 1.0 << 1.0 << 5.0 << 5.0 << 0.0 << 4.0 << 3.0 << 4.0 << 45.0; QTest::newRow("[4,4]-[-4,0]") << 1.0 << 1.0 << 5.0 << 5.0 << 3.0 << 4.0 << 0.0 << 4.0 << 135.0; for (int i=0; i<180; ++i) { QTest::newRow(QString("angle:%1").arg(i).toLatin1()) << 0.0 << 0.0 << double(cos(i*M_2PI/360)) << double(sin(i*M_2PI/360)) << 0.0 << 0.0 << 1.0 << 0.0 << double(i); } } void tst_QLine::testAngle() { QFETCH(double, xa1); QFETCH(double, ya1); QFETCH(double, xa2); QFETCH(double, ya2); QFETCH(double, xb1); QFETCH(double, yb1); QFETCH(double, xb2); QFETCH(double, yb2); QFETCH(double, angle); QLineF a(xa1, ya1, xa2, ya2); QLineF b(xb1, yb1, xb2, yb2); double resultAngle = a.angle(b); QCOMPARE(qRound(resultAngle), qRound(angle)); } void tst_QLine::testAngle2_data() { QTest::addColumn("x1"); QTest::addColumn("y1"); QTest::addColumn("x2"); QTest::addColumn("y2"); QTest::addColumn("angle"); QTest::newRow("right") << qreal(0.0) << qreal(0.0) << qreal(10.0) << qreal(0.0) << qreal(0.0); QTest::newRow("left") << qreal(0.0) << qreal(0.0) << qreal(-10.0) << qreal(0.0) << qreal(180.0); QTest::newRow("up") << qreal(0.0) << qreal(0.0) << qreal(0.0) << qreal(-10.0) << qreal(90.0); QTest::newRow("down") << qreal(0.0) << qreal(0.0) << qreal(0.0) << qreal(10.0) << qreal(270.0); QTest::newRow("diag a") << qreal(0.0) << qreal(0.0) << qreal(10.0) << qreal(-10.0) << qreal(45.0); QTest::newRow("diag b") << qreal(0.0) << qreal(0.0) << qreal(-10.0) << qreal(-10.0) << qreal(135.0); QTest::newRow("diag c") << qreal(0.0) << qreal(0.0) << qreal(-10.0) << qreal(10.0) << qreal(225.0); QTest::newRow("diag d") << qreal(0.0) << qreal(0.0) << qreal(10.0) << qreal(10.0) << qreal(315.0); } void tst_QLine::testAngle2() { QFETCH(qreal, x1); QFETCH(qreal, y1); QFETCH(qreal, x2); QFETCH(qreal, y2); QFETCH(qreal, angle); QLineF line(x1, y1, x2, y2); QCOMPARE(line.angle(), angle); QLineF polar = QLineF::fromPolar(line.length(), angle); QVERIFY(qAbs(line.x1() - polar.x1()) < epsilon); QVERIFY(qAbs(line.y1() - polar.y1()) < epsilon); QVERIFY(qAbs(line.x2() - polar.x2()) < epsilon); QVERIFY(qAbs(line.y2() - polar.y2()) < epsilon); } void tst_QLine::testAngle3() { for (int i = -720; i <= 720; ++i) { QLineF line(0, 0, 100, 0); line.setAngle(i); const int expected = (i + 720) % 360; QVERIFY2(qAbs(line.angle() - qreal(expected)) < epsilon, qPrintable(QString::fromLatin1("value: %1").arg(i))); QCOMPARE(line.length(), qreal(100.0)); QCOMPARE(QLineF::fromPolar(100.0, i), line); } } void tst_QLine::testAngleTo() { QFETCH(qreal, xa1); QFETCH(qreal, ya1); QFETCH(qreal, xa2); QFETCH(qreal, ya2); QFETCH(qreal, xb1); QFETCH(qreal, yb1); QFETCH(qreal, xb2); QFETCH(qreal, yb2); QFETCH(qreal, angle); QLineF a(xa1, ya1, xa2, ya2); QLineF b(xb1, yb1, xb2, yb2); const qreal resultAngle = a.angleTo(b); QVERIFY(qAbs(resultAngle - angle) < epsilon); a.translate(b.p1() - a.p1()); a.setAngle(a.angle() + resultAngle); a.setLength(b.length()); QCOMPARE(a, b); } void tst_QLine::testAngleTo_data() { QTest::addColumn("xa1"); QTest::addColumn("ya1"); QTest::addColumn("xa2"); QTest::addColumn("ya2"); QTest::addColumn("xb1"); QTest::addColumn("yb1"); QTest::addColumn("xb2"); QTest::addColumn("yb2"); QTest::addColumn("angle"); QTest::newRow("parallel") << qreal(1.0) << qreal(1.0) << qreal(3.0) << qreal(4.0) << qreal(5.0) << qreal(6.0) << qreal(7.0) << qreal(9.0) << qreal(0.0); QTest::newRow("[4,4]-[4,0]") << qreal(1.0) << qreal(1.0) << qreal(5.0) << qreal(5.0) << qreal(0.0) << qreal(4.0) << qreal(3.0) << qreal(4.0) << qreal(45.0); QTest::newRow("[4,4]-[-4,0]") << qreal(1.0) << qreal(1.0) << qreal(5.0) << qreal(5.0) << qreal(3.0) << qreal(4.0) << qreal(0.0) << qreal(4.0) << qreal(225.0); for (int i = 0; i < 360; ++i) { const QLineF l = QLineF::fromPolar(1, i); QTest::newRow(QString("angle:%1").arg(i).toLatin1()) << qreal(0.0) << qreal(0.0) << qreal(1.0) << qreal(0.0) << qreal(0.0) << qreal(0.0) << l.p2().x() << l.p2().y() << qreal(i); } } QTEST_MAIN(tst_QLine) #include "tst_qline.moc"