magnum/src/Math/Test/DualComplexTest.cpp

/*
    Copyright © 2010, 2011, 2012 Vladimír Vondruš <mosra@centrum.cz>

    This file is part of Magnum.

    Magnum is free software: you can redistribute it and/or modify
    it under the terms of the GNU Lesser General Public License version 3
    only, as published by the Free Software Foundation.

    Magnum 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 version 3 for more details.
*/

#include <sstream>
#include <TestSuite/Tester.h>

#include "Math/DualComplex.h"
#include "Math/DualQuaternion.h"

namespace Magnum { namespace Math { namespace Test {

class DualComplexTest: public Corrade::TestSuite::Tester {
    public:
        explicit DualComplexTest();

        void construct();
        void constructDefault();
        void constructFromVector();

        void constExpressions();

        void multiply();

        void lengthSquared();
        void length();
        void normalized();

        void complexConjugated();
        void dualConjugated();
        void conjugated();
        void inverted();
        void invertedNormalized();

        void rotation();
        void translation();
        void combinedTransformParts();
        void matrix();
        void transformPoint();

        void debug();
};

typedef Math::Deg<Float> Deg;
typedef Math::Rad<Float> Rad;
typedef Math::Complex<Float> Complex;
typedef Math::Dual<Float> Dual;
typedef Math::DualComplex<Float> DualComplex;
typedef Math::Matrix3<Float> Matrix3;
typedef Math::Vector2<Float> Vector2;

DualComplexTest::DualComplexTest() {
    addTests(&DualComplexTest::construct,
             &DualComplexTest::constructDefault,
             &DualComplexTest::constructFromVector,

             &DualComplexTest::constExpressions,

             &DualComplexTest::multiply,

             &DualComplexTest::lengthSquared,
             &DualComplexTest::length,
             &DualComplexTest::normalized,

             &DualComplexTest::complexConjugated,
             &DualComplexTest::dualConjugated,
             &DualComplexTest::conjugated,
             &DualComplexTest::inverted,
             &DualComplexTest::invertedNormalized,

             &DualComplexTest::rotation,
             &DualComplexTest::translation,
             &DualComplexTest::combinedTransformParts,
             &DualComplexTest::matrix,
             &DualComplexTest::transformPoint,

             &DualComplexTest::debug);
}

void DualComplexTest::construct() {
    DualComplex a({-1.0f, 2.5f}, {3.0f, -7.5f});
    CORRADE_COMPARE(a.real(), Complex(-1.0f, 2.5f));
    CORRADE_COMPARE(a.dual(), Complex(3.0f, -7.5f));
}

void DualComplexTest::constructDefault() {
    CORRADE_COMPARE(DualComplex(), DualComplex({1.0f, 0.0f}, {0.0f, 0.0f}));
    CORRADE_COMPARE(DualComplex().length(), 1.0f);
}

void DualComplexTest::constructFromVector() {
    CORRADE_COMPARE(DualComplex(Vector2(1.5f, -3.0f)), DualComplex({1.0f, 0.0f}, {1.5f, -3.0f}));
}

void DualComplexTest::constExpressions() {
    /* Default constructor */
    constexpr DualComplex a;
    CORRADE_COMPARE(a, DualComplex({1.0f, 0.0f}, {0.0f, 0.0f}));

    /* Value constructor */
    constexpr DualComplex b({-1.0f, 2.5f}, {3.0f, -7.5f});
    CORRADE_COMPARE(b, DualComplex({-1.0f, 2.5f}, {3.0f, -7.5f}));

    /* Vector constructor */
    constexpr DualComplex c(Vector2(-3.0f, 7.5f));
    CORRADE_COMPARE(c, DualComplex({}, {-3.0f, 7.5f}));

    /* Copy constructor */
    constexpr DualComplex d(b);
    CORRADE_COMPARE(d, DualComplex({-1.0f, 2.5f}, {3.0f, -7.5f}));
}

void DualComplexTest::multiply() {
    DualComplex a({-1.5f,  2.0f}, { 3.0f, -6.5f});
    DualComplex b({ 2.0f, -7.5f}, {-0.5f,  1.0f});;
    CORRADE_COMPARE(a*b, DualComplex({12.0f, 15.25f}, {1.75f, -9.0f}));
}

void DualComplexTest::lengthSquared() {
    DualComplex a({-1.0f, 3.0f}, {0.5f, -2.0f});
    CORRADE_COMPARE(a.lengthSquared(), 10.0f);
}

void DualComplexTest::length() {
    DualComplex a({-1.0f, 3.0f}, {0.5f, -2.0f});
    CORRADE_COMPARE(a.length(), 3.162278f);
}

void DualComplexTest::normalized() {
    DualComplex a({-1.0f, 3.0f}, {0.5f, -2.0f});
    DualComplex b({-0.316228f, 0.948683f}, {0.5f, -2.0f});
    CORRADE_COMPARE(a.normalized().length(), 1.0f);
    CORRADE_COMPARE(a.normalized(), b);
}

void DualComplexTest::complexConjugated() {
    DualComplex a({-1.0f,  2.5f}, {3.0f, -7.5f});
    DualComplex b({-1.0f, -2.5f}, {3.0f,  7.5f});
    CORRADE_COMPARE(a.complexConjugated(), b);
}

void DualComplexTest::dualConjugated() {
    DualComplex a({-1.0f, 2.5f}, { 3.0f, -7.5f});
    DualComplex b({-1.0f, 2.5f}, {-3.0f,  7.5f});
    CORRADE_COMPARE(a.dualConjugated(), b);
}

void DualComplexTest::conjugated() {
    DualComplex a({-1.0f,  2.5f}, { 3.0f, -7.5f});
    DualComplex b({-1.0f, -2.5f}, {-3.0f, -7.5f});
    CORRADE_COMPARE(a.conjugated(), b);
}

void DualComplexTest::inverted() {
    DualComplex a({-1.0f, 1.5f}, {3.0f, -7.5f});
    DualComplex b({-0.307692f, -0.461538f}, {4.384616f, -0.923077f});
    CORRADE_COMPARE(a*a.inverted(), DualComplex());
    CORRADE_COMPARE(a.inverted(), b);
}

void DualComplexTest::invertedNormalized() {
    DualComplex a({-0.316228f,  0.9486831f}, {     3.0f,    -2.5f});
    DualComplex b({-0.316228f, -0.9486831f}, {3.320391f, 2.05548f});

    std::ostringstream o;
    Error::setOutput(&o);
    DualComplex notInverted = DualComplex({-1.0f, -2.5f}, {}).invertedNormalized();
    CORRADE_VERIFY(notInverted != notInverted);
    CORRADE_COMPARE(o.str(), "Math::Complex::invertedNormalized(): complex number must be normalized\n");

    DualComplex inverted = a.invertedNormalized();
    CORRADE_COMPARE(a*inverted, DualComplex());
    CORRADE_COMPARE(inverted*a, DualComplex());
    CORRADE_COMPARE(inverted, b);
}

void DualComplexTest::rotation() {
    DualComplex a = DualComplex::rotation(Deg(120.0f));
    CORRADE_COMPARE(a.length(), 1.0f);
    CORRADE_COMPARE(a, DualComplex({-0.5f, 0.8660254f}, {0.0f, 0.0f}));
    CORRADE_COMPARE_AS(a.rotationAngle(), Deg(120.0f), Rad);
}

void DualComplexTest::translation() {
    Vector2 vec(1.5f, -3.5f);
    DualComplex a = DualComplex::translation(vec);
    CORRADE_COMPARE(a.length(), 1.0f);
    CORRADE_COMPARE(a, DualComplex({}, {1.5f, -3.5f}));
    CORRADE_COMPARE(a.translation(), vec);
}

void DualComplexTest::combinedTransformParts() {
    Vector2 translation = Vector2(-1.5f, 2.75f);
    DualComplex a = DualComplex::translation(translation)*DualComplex::rotation(Deg(23.0f));
    DualComplex b = DualComplex::rotation(Deg(23.0f))*DualComplex::translation(translation);

    CORRADE_COMPARE_AS(a.rotationAngle(), Deg(23.0f), Rad);
    CORRADE_COMPARE_AS(b.rotationAngle(), Deg(23.0f), Rad);
    CORRADE_COMPARE(a.translation(), translation);
    CORRADE_COMPARE(b.translation(), Complex::rotation(Deg(23.0f)).transformVector(translation));
}

void DualComplexTest::matrix() {
    DualComplex a = DualComplex::rotation(Deg(23.0f))*DualComplex::translation({2.0f, 3.0f});
    Matrix3 m = Matrix3::rotation(Deg(23.0f))*Matrix3::translation({2.0f, 3.0f});

    CORRADE_COMPARE(a.toMatrix(), m);
}

void DualComplexTest::transformPoint() {
    DualComplex a = DualComplex::translation({2.0f, 3.0f})*DualComplex::rotation(Deg(23.0f));
    DualComplex b = DualComplex::rotation(Deg(23.0f))*DualComplex::translation({2.0f, 3.0f});
    Matrix3 m = Matrix3::translation({2.0f, 3.0f})*Matrix3::rotation(Deg(23.0f));
    Matrix3 n = Matrix3::rotation(Deg(23.0f))*Matrix3::translation({2.0f, 3.0f});
    Vector2 v(-3.6f, 0.7f);

    Vector2 transformedA = a.transformPoint(v);
    CORRADE_COMPARE(transformedA, m.transformPoint(v));
    CORRADE_COMPARE(transformedA, Vector2(-1.58733f, 2.237721f));

    Vector2 transformedB = b.transformPoint(v);
    CORRADE_COMPARE(transformedB, n.transformPoint(v));
    CORRADE_COMPARE(transformedB, Vector2(-2.918512f, 2.780698f));
}

void DualComplexTest::debug() {
    std::ostringstream o;

    Debug(&o) << DualComplex({-1.0f, -2.5f}, {-3.0f, -7.5f});
    CORRADE_COMPARE(o.str(), "DualComplex({-1, -2.5}, {-3, -7.5})\n");
}

}}}

CORRADE_TEST_MAIN(Magnum::Math::Test::DualComplexTest)
Math: initial implementation of dual complex numbers. 13 years ago			`/*`
			`Copyright © 2010, 2011, 2012 Vladimír Vondruš <mosra@centrum.cz>`

			`This file is part of Magnum.`

			`Magnum is free software: you can redistribute it and/or modify`
			`it under the terms of the GNU Lesser General Public License version 3`
			`only, as published by the Free Software Foundation.`

			`Magnum 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 version 3 for more details.`
			`*/`

			`#include <sstream>`
			`#include <TestSuite/Tester.h>`

			`#include "Math/DualComplex.h"`
Math: reworked DualComplex to actually work. The tests now pass and it works similarly to transformation matrix multiplication/inversion in 2D, but it hasn't any connection to dual numbers anymore. 13 years ago			`#include "Math/DualQuaternion.h"`
Math: initial implementation of dual complex numbers. 13 years ago
			`namespace Magnum { namespace Math { namespace Test {`

			`class DualComplexTest: public Corrade::TestSuite::Tester {`
			`public:`
			`explicit DualComplexTest();`

			`void construct();`
			`void constructDefault();`
Math: creating DualComplex from Vector2. 13 years ago			`void constructFromVector();`
Math: initial implementation of dual complex numbers. 13 years ago
			`void constExpressions();`

Math: reworked DualComplex to actually work. The tests now pass and it works similarly to transformation matrix multiplication/inversion in 2D, but it hasn't any connection to dual numbers anymore. 13 years ago			`void multiply();`

Math: length and normalization of DualComplex. 13 years ago			`void lengthSquared();`
			`void length();`
			`void normalized();`

Math: initial implementation of dual complex numbers. 13 years ago			`void complexConjugated();`
			`void dualConjugated();`
			`void conjugated();`
Math: inversion of DualComplex. 13 years ago			`void inverted();`
			`void invertedNormalized();`
Math: initial implementation of dual complex numbers. 13 years ago
Math: rotation dual complex number. 13 years ago			`void rotation();`
Math: translation dual complex number. 13 years ago			`void translation();`
Math: test DualComplex transformation combination. Also fails. 13 years ago			`void combinedTransformParts();`
Math: converting DualComplex to matrix. 13 years ago			`void matrix();`
Math: transforming points with DualComplex. 13 years ago			`void transformPoint();`
Math: rotation dual complex number. 13 years ago
Math: initial implementation of dual complex numbers. 13 years ago			`void debug();`
			`};`

Math: using new aliases for builtin types in whole Math namespace. 13 years ago			`typedef Math::Deg<Float> Deg;`
			`typedef Math::Rad<Float> Rad;`
			`typedef Math::Complex<Float> Complex;`
			`typedef Math::Dual<Float> Dual;`
			`typedef Math::DualComplex<Float> DualComplex;`
			`typedef Math::Matrix3<Float> Matrix3;`
			`typedef Math::Vector2<Float> Vector2;`
Math: initial implementation of dual complex numbers. 13 years ago
			`DualComplexTest::DualComplexTest() {`
			`addTests(&DualComplexTest::construct,`
			`&DualComplexTest::constructDefault,`
Math: creating DualComplex from Vector2. 13 years ago			`&DualComplexTest::constructFromVector,`
Math: initial implementation of dual complex numbers. 13 years ago
			`&DualComplexTest::constExpressions,`

Math: reworked DualComplex to actually work. The tests now pass and it works similarly to transformation matrix multiplication/inversion in 2D, but it hasn't any connection to dual numbers anymore. 13 years ago			`&DualComplexTest::multiply,`

Math: length and normalization of DualComplex. 13 years ago			`&DualComplexTest::lengthSquared,`
			`&DualComplexTest::length,`
			`&DualComplexTest::normalized,`

Math: initial implementation of dual complex numbers. 13 years ago			`&DualComplexTest::complexConjugated,`
			`&DualComplexTest::dualConjugated,`
			`&DualComplexTest::conjugated,`
Math: inversion of DualComplex. 13 years ago			`&DualComplexTest::inverted,`
			`&DualComplexTest::invertedNormalized,`
Math: initial implementation of dual complex numbers. 13 years ago
Math: rotation dual complex number. 13 years ago			`&DualComplexTest::rotation,`
Math: translation dual complex number. 13 years ago			`&DualComplexTest::translation,`
Math: test DualComplex transformation combination. Also fails. 13 years ago			`&DualComplexTest::combinedTransformParts,`
Math: converting DualComplex to matrix. 13 years ago			`&DualComplexTest::matrix,`
Math: transforming points with DualComplex. 13 years ago			`&DualComplexTest::transformPoint,`
Math: rotation dual complex number. 13 years ago
Math: initial implementation of dual complex numbers. 13 years ago			`&DualComplexTest::debug);`
			`}`

			`void DualComplexTest::construct() {`
			`DualComplex a({-1.0f, 2.5f}, {3.0f, -7.5f});`
			`CORRADE_COMPARE(a.real(), Complex(-1.0f, 2.5f));`
			`CORRADE_COMPARE(a.dual(), Complex(3.0f, -7.5f));`
			`}`

			`void DualComplexTest::constructDefault() {`
			`CORRADE_COMPARE(DualComplex(), DualComplex({1.0f, 0.0f}, {0.0f, 0.0f}));`
Math: length and normalization of DualComplex. 13 years ago			`CORRADE_COMPARE(DualComplex().length(), 1.0f);`
Math: initial implementation of dual complex numbers. 13 years ago			`}`

Math: creating DualComplex from Vector2. 13 years ago			`void DualComplexTest::constructFromVector() {`
			`CORRADE_COMPARE(DualComplex(Vector2(1.5f, -3.0f)), DualComplex({1.0f, 0.0f}, {1.5f, -3.0f}));`
			`}`

Math: initial implementation of dual complex numbers. 13 years ago			`void DualComplexTest::constExpressions() {`
			`/* Default constructor */`
			`constexpr DualComplex a;`
			`CORRADE_COMPARE(a, DualComplex({1.0f, 0.0f}, {0.0f, 0.0f}));`

			`/* Value constructor */`
			`constexpr DualComplex b({-1.0f, 2.5f}, {3.0f, -7.5f});`
			`CORRADE_COMPARE(b, DualComplex({-1.0f, 2.5f}, {3.0f, -7.5f}));`

Math: creating DualComplex from Vector2. 13 years ago			`/* Vector constructor */`
			`constexpr DualComplex c(Vector2(-3.0f, 7.5f));`
			`CORRADE_COMPARE(c, DualComplex({}, {-3.0f, 7.5f}));`

Math: initial implementation of dual complex numbers. 13 years ago			`/* Copy constructor */`
			`constexpr DualComplex d(b);`
			`CORRADE_COMPARE(d, DualComplex({-1.0f, 2.5f}, {3.0f, -7.5f}));`
			`}`

Math: reworked DualComplex to actually work. The tests now pass and it works similarly to transformation matrix multiplication/inversion in 2D, but it hasn't any connection to dual numbers anymore. 13 years ago			`void DualComplexTest::multiply() {`
			`DualComplex a({-1.5f, 2.0f}, { 3.0f, -6.5f});`
			`DualComplex b({ 2.0f, -7.5f}, {-0.5f, 1.0f});;`
			`CORRADE_COMPARE(a*b, DualComplex({12.0f, 15.25f}, {1.75f, -9.0f}));`
			`}`

Math: length and normalization of DualComplex. 13 years ago			`void DualComplexTest::lengthSquared() {`
			`DualComplex a({-1.0f, 3.0f}, {0.5f, -2.0f});`
Math: reworked DualComplex to actually work. The tests now pass and it works similarly to transformation matrix multiplication/inversion in 2D, but it hasn't any connection to dual numbers anymore. 13 years ago			`CORRADE_COMPARE(a.lengthSquared(), 10.0f);`
Math: length and normalization of DualComplex. 13 years ago			`}`

			`void DualComplexTest::length() {`
			`DualComplex a({-1.0f, 3.0f}, {0.5f, -2.0f});`
Math: reworked DualComplex to actually work. The tests now pass and it works similarly to transformation matrix multiplication/inversion in 2D, but it hasn't any connection to dual numbers anymore. 13 years ago			`CORRADE_COMPARE(a.length(), 3.162278f);`
Math: length and normalization of DualComplex. 13 years ago			`}`

			`void DualComplexTest::normalized() {`
			`DualComplex a({-1.0f, 3.0f}, {0.5f, -2.0f});`
Math: reworked DualComplex to actually work. The tests now pass and it works similarly to transformation matrix multiplication/inversion in 2D, but it hasn't any connection to dual numbers anymore. 13 years ago			`DualComplex b({-0.316228f, 0.948683f}, {0.5f, -2.0f});`
Math: length and normalization of DualComplex. 13 years ago			`CORRADE_COMPARE(a.normalized().length(), 1.0f);`
			`CORRADE_COMPARE(a.normalized(), b);`
			`}`

Math: initial implementation of dual complex numbers. 13 years ago			`void DualComplexTest::complexConjugated() {`
			`DualComplex a({-1.0f, 2.5f}, {3.0f, -7.5f});`
			`DualComplex b({-1.0f, -2.5f}, {3.0f, 7.5f});`
			`CORRADE_COMPARE(a.complexConjugated(), b);`
			`}`

			`void DualComplexTest::dualConjugated() {`
			`DualComplex a({-1.0f, 2.5f}, { 3.0f, -7.5f});`
			`DualComplex b({-1.0f, 2.5f}, {-3.0f, 7.5f});`
			`CORRADE_COMPARE(a.dualConjugated(), b);`
			`}`

			`void DualComplexTest::conjugated() {`
			`DualComplex a({-1.0f, 2.5f}, { 3.0f, -7.5f});`
			`DualComplex b({-1.0f, -2.5f}, {-3.0f, -7.5f});`
			`CORRADE_COMPARE(a.conjugated(), b);`
			`}`

Math: inversion of DualComplex. 13 years ago			`void DualComplexTest::inverted() {`
Math: reworked DualComplex to actually work. The tests now pass and it works similarly to transformation matrix multiplication/inversion in 2D, but it hasn't any connection to dual numbers anymore. 13 years ago			`DualComplex a({-1.0f, 1.5f}, {3.0f, -7.5f});`
			`DualComplex b({-0.307692f, -0.461538f}, {4.384616f, -0.923077f});`
Math: inversion of DualComplex. 13 years ago			`CORRADE_COMPARE(a*a.inverted(), DualComplex());`
Math: reworked DualComplex to actually work. The tests now pass and it works similarly to transformation matrix multiplication/inversion in 2D, but it hasn't any connection to dual numbers anymore. 13 years ago			`CORRADE_COMPARE(a.inverted(), b);`
Math: inversion of DualComplex. 13 years ago			`}`

			`void DualComplexTest::invertedNormalized() {`
Math: reworked DualComplex to actually work. The tests now pass and it works similarly to transformation matrix multiplication/inversion in 2D, but it hasn't any connection to dual numbers anymore. 13 years ago			`DualComplex a({-0.316228f, 0.9486831f}, { 3.0f, -2.5f});`
			`DualComplex b({-0.316228f, -0.9486831f}, {3.320391f, 2.05548f});`
Math: inversion of DualComplex. 13 years ago
			`std::ostringstream o;`
			`Error::setOutput(&o);`
Math: reworked DualComplex to actually work. The tests now pass and it works similarly to transformation matrix multiplication/inversion in 2D, but it hasn't any connection to dual numbers anymore. 13 years ago			`DualComplex notInverted = DualComplex({-1.0f, -2.5f}, {}).invertedNormalized();`
			`CORRADE_VERIFY(notInverted != notInverted);`
			`CORRADE_COMPARE(o.str(), "Math::Complex::invertedNormalized(): complex number must be normalized\n");`

			`DualComplex inverted = a.invertedNormalized();`
			`CORRADE_COMPARE(a*inverted, DualComplex());`
			`CORRADE_COMPARE(inverted*a, DualComplex());`
			`CORRADE_COMPARE(inverted, b);`
Math: inversion of DualComplex. 13 years ago			`}`

Math: rotation dual complex number. 13 years ago			`void DualComplexTest::rotation() {`
			`DualComplex a = DualComplex::rotation(Deg(120.0f));`
Math: test also that DualComplex transformations are normalized. Fails for translation. 13 years ago			`CORRADE_COMPARE(a.length(), 1.0f);`
Math: rotation dual complex number. 13 years ago			`CORRADE_COMPARE(a, DualComplex({-0.5f, 0.8660254f}, {0.0f, 0.0f}));`
			`CORRADE_COMPARE_AS(a.rotationAngle(), Deg(120.0f), Rad);`
			`}`

Math: translation dual complex number. 13 years ago			`void DualComplexTest::translation() {`
			`Vector2 vec(1.5f, -3.5f);`
			`DualComplex a = DualComplex::translation(vec);`
Math: test also that DualComplex transformations are normalized. Fails for translation. 13 years ago			`CORRADE_COMPARE(a.length(), 1.0f);`
Math: translation dual complex number. 13 years ago			`CORRADE_COMPARE(a, DualComplex({}, {1.5f, -3.5f}));`
			`CORRADE_COMPARE(a.translation(), vec);`
			`}`

Math: test DualComplex transformation combination. Also fails. 13 years ago			`void DualComplexTest::combinedTransformParts() {`
			`Vector2 translation = Vector2(-1.5f, 2.75f);`
			`DualComplex a = DualComplex::translation(translation)*DualComplex::rotation(Deg(23.0f));`
			`DualComplex b = DualComplex::rotation(Deg(23.0f))*DualComplex::translation(translation);`

			`CORRADE_COMPARE_AS(a.rotationAngle(), Deg(23.0f), Rad);`
			`CORRADE_COMPARE_AS(b.rotationAngle(), Deg(23.0f), Rad);`
			`CORRADE_COMPARE(a.translation(), translation);`
			`CORRADE_COMPARE(b.translation(), Complex::rotation(Deg(23.0f)).transformVector(translation));`
			`}`

Math: converting DualComplex to matrix. 13 years ago			`void DualComplexTest::matrix() {`
			`DualComplex a = DualComplex::rotation(Deg(23.0f))*DualComplex::translation({2.0f, 3.0f});`
			`Matrix3 m = Matrix3::rotation(Deg(23.0f))*Matrix3::translation({2.0f, 3.0f});`

Math: renamed *::matrix() to ::toMatrix(). It better visualizes the fact that neither (Dual)Complex nor (Dual)Quaternion contains the matrix inside them, but performs (possibly costly) conversion. 13 years ago			`CORRADE_COMPARE(a.toMatrix(), m);`
Math: converting DualComplex to matrix. 13 years ago			`}`

Math: transforming points with DualComplex. 13 years ago			`void DualComplexTest::transformPoint() {`
			`DualComplex a = DualComplex::translation({2.0f, 3.0f})*DualComplex::rotation(Deg(23.0f));`
			`DualComplex b = DualComplex::rotation(Deg(23.0f))*DualComplex::translation({2.0f, 3.0f});`
			`Matrix3 m = Matrix3::translation({2.0f, 3.0f})*Matrix3::rotation(Deg(23.0f));`
			`Matrix3 n = Matrix3::rotation(Deg(23.0f))*Matrix3::translation({2.0f, 3.0f});`
			`Vector2 v(-3.6f, 0.7f);`

			`Vector2 transformedA = a.transformPoint(v);`
			`CORRADE_COMPARE(transformedA, m.transformPoint(v));`
			`CORRADE_COMPARE(transformedA, Vector2(-1.58733f, 2.237721f));`

			`Vector2 transformedB = b.transformPoint(v);`
			`CORRADE_COMPARE(transformedB, n.transformPoint(v));`
			`CORRADE_COMPARE(transformedB, Vector2(-2.918512f, 2.780698f));`
			`}`

Math: initial implementation of dual complex numbers. 13 years ago			`void DualComplexTest::debug() {`
			`std::ostringstream o;`

			`Debug(&o) << DualComplex({-1.0f, -2.5f}, {-3.0f, -7.5f});`
			`CORRADE_COMPARE(o.str(), "DualComplex({-1, -2.5}, {-3, -7.5})\n");`
			`}`

			`}}}`

			`CORRADE_TEST_MAIN(Magnum::Math::Test::DualComplexTest)`