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diff --git a/src/3rdparty/2geom/tests/angle-test.cpp b/src/3rdparty/2geom/tests/angle-test.cpp
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+++ b/src/3rdparty/2geom/tests/angle-test.cpp
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+/** @file
+ * @brief Unit tests for Angle and AngleInterval.
+ * Uses the Google Testing Framework
+ *//*
+ * Authors:
+ *   Krzysztof Kosiński <tweenk.pl@gmail.com>
+ * 
+ * Copyright 2015 Authors
+ *
+ * This library is free software; you can redistribute it and/or
+ * modify it either under the terms of the GNU Lesser General Public
+ * License version 2.1 as published by the Free Software Foundation
+ * (the "LGPL") or, at your option, under the terms of the Mozilla
+ * Public License Version 1.1 (the "MPL"). If you do not alter this
+ * notice, a recipient may use your version of this file under either
+ * the MPL or the LGPL.
+ *
+ * You should have received a copy of the LGPL along with this library
+ * in the file COPYING-LGPL-2.1; if not, write to the Free Software
+ * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
+ * You should have received a copy of the MPL along with this library
+ * in the file COPYING-MPL-1.1
+ *
+ * The contents of this file are subject to the Mozilla Public License
+ * Version 1.1 (the "License"); you may not use this file except in
+ * compliance with the License. You may obtain a copy of the License at
+ * http://www.mozilla.org/MPL/
+ *
+ * This software is distributed on an "AS IS" basis, WITHOUT WARRANTY
+ * OF ANY KIND, either express or implied. See the LGPL or the MPL for
+ * the specific language governing rights and limitations.
+ */
+
+#include <2geom/angle.h>
+#include <glib.h>
+#include "testing.h"
+
+using namespace Geom;
+
+TEST(AngleIntervalTest, InnerAngleConstrutor) {
+    std::vector<AngleInterval> ivs;
+
+    ivs.emplace_back(0, M_PI, true);
+    ivs.emplace_back(0, M_PI, false);
+    ivs.emplace_back(M_PI, 0, true);
+    ivs.emplace_back(M_PI, 0, false);
+    ivs.emplace_back(Angle(0), Angle(0), Angle(M_PI));
+
+    for (auto & iv : ivs) {
+        AngleInterval inner(iv.angleAt(0), iv.angleAt(0.5), iv.angleAt(1));
+        EXPECT_EQ(inner, iv);
+    }
+}
+
+TEST(AngleIntervalTest, Containment) {
+    AngleInterval a(0, M_PI, true);
+    AngleInterval b(0, M_PI, false);
+    AngleInterval c(M_PI, 0, true);
+    AngleInterval d(M_PI, 0, false);
+    AngleInterval e = AngleInterval::create_full(M_PI, true);
+
+    EXPECT_TRUE(a.contains(1.));
+    EXPECT_FALSE(a.contains(5.));
+    EXPECT_EQ(a.extent(), M_PI);
+
+    EXPECT_FALSE(b.contains(1.));
+    EXPECT_TRUE(b.contains(5.));
+    EXPECT_EQ(b.extent(), M_PI);
+
+    EXPECT_FALSE(c.contains(1.));
+    EXPECT_TRUE(c.contains(5.));
+    EXPECT_EQ(c.extent(), M_PI);
+
+    EXPECT_TRUE(d.contains(1.));
+    EXPECT_FALSE(d.contains(5.));
+    EXPECT_EQ(d.extent(), M_PI);
+
+    EXPECT_TRUE(e.contains(1.));
+    EXPECT_TRUE(e.contains(5.));
+    EXPECT_EQ(e.extent(), 2*M_PI);
+}
+
+TEST(AngleIntervalTest, TimeAtAngle) {
+    Coord pi32 = (3./2.)*M_PI;
+    AngleInterval a(M_PI, pi32, true);
+    AngleInterval b(pi32, M_PI, true);
+    AngleInterval c(M_PI, 0, false);
+    AngleInterval d(M_PI/2, M_PI, false);
+    AngleInterval e = AngleInterval::create_full(M_PI, true);
+    AngleInterval f = AngleInterval::create_full(M_PI, false);
+    Interval unit(0, 1);
+
+    EXPECT_EQ(a.timeAtAngle(M_PI), 0);
+    EXPECT_EQ(a.timeAtAngle(pi32), 1);
+    EXPECT_EQ(a.extent(), M_PI/2);
+    for (Coord t = -1; t <= 2; t += 0.125) {
+        Coord angle = lerp(t, M_PI, pi32);
+        Coord ti = a.timeAtAngle(angle);
+        EXPECT_EQ(unit.contains(ti), a.contains(angle));
+        EXPECT_FLOAT_EQ(ti, t);
+    }
+
+    EXPECT_EQ(b.timeAtAngle(pi32), 0);
+    EXPECT_EQ(b.timeAtAngle(M_PI), 1);
+    EXPECT_EQ(b.extent(), pi32);
+    EXPECT_FLOAT_EQ(b.timeAtAngle(M_PI/4), 0.5);
+    EXPECT_FLOAT_EQ(b.timeAtAngle(0), 1./3.);
+    EXPECT_FLOAT_EQ(b.timeAtAngle((11./8)*M_PI), -1./12);
+    for (Coord t = -0.125; t <= 1.125; t += 0.0625) {
+        Coord angle = lerp(t, pi32, 3*M_PI);
+        Coord ti = b.timeAtAngle(angle);
+        EXPECT_EQ(unit.contains(ti), b.contains(angle));
+        EXPECT_FLOAT_EQ(ti, t);
+    }
+
+    EXPECT_EQ(c.timeAtAngle(M_PI), 0);
+    EXPECT_EQ(c.timeAtAngle(0), 1);
+    EXPECT_EQ(c.extent(), M_PI);
+    EXPECT_FLOAT_EQ(c.timeAtAngle(M_PI/2), 0.5);
+    for (Coord t = -0.25; t <= 1.25; t += 0.125) {
+        Coord angle = lerp(t, M_PI, 0);
+        Coord ti = c.timeAtAngle(angle);
+        EXPECT_EQ(unit.contains(ti), c.contains(angle));
+        EXPECT_FLOAT_EQ(ti, t);
+    }
+
+    EXPECT_EQ(d.timeAtAngle(M_PI/2), 0);
+    EXPECT_EQ(d.timeAtAngle(M_PI), 1);
+    EXPECT_EQ(d.extent(), pi32);
+    EXPECT_FLOAT_EQ(d.timeAtAngle(-M_PI/4), 0.5);
+    for (Coord t = -0.125; t <= 1.125; t += 0.0625) {
+        Coord angle = lerp(t, M_PI/2, -M_PI);
+        Coord ti = d.timeAtAngle(angle);
+        EXPECT_EQ(unit.contains(ti), d.contains(angle));
+        EXPECT_FLOAT_EQ(ti, t);
+    }
+
+    EXPECT_EQ(e.timeAtAngle(M_PI), 0);
+    EXPECT_EQ(e.extent(), 2*M_PI);
+    EXPECT_FLOAT_EQ(e.timeAtAngle(0), 0.5);
+    for (Coord t = 0; t < 1; t += 0.125) {
+        Coord angle = lerp(t, M_PI, 3*M_PI);
+        Coord ti = e.timeAtAngle(angle);
+        EXPECT_EQ(unit.contains(ti), true);
+        EXPECT_EQ(e.contains(angle), true);
+        EXPECT_FLOAT_EQ(ti, t);
+    }
+
+    EXPECT_EQ(f.timeAtAngle(M_PI), 0);
+    EXPECT_EQ(f.extent(), 2*M_PI);
+    EXPECT_FLOAT_EQ(e.timeAtAngle(0), 0.5);
+    for (Coord t = 0; t < 1; t += 0.125) {
+        Coord angle = lerp(t, M_PI, -M_PI);
+        Coord ti = f.timeAtAngle(angle);
+        EXPECT_EQ(unit.contains(ti), true);
+        EXPECT_EQ(f.contains(angle), true);
+        EXPECT_FLOAT_EQ(ti, t);
+    }
+}
+
+TEST(AngleIntervalTest, AngleAt) {
+    Coord pi32 = (3./2.)*M_PI;
+    AngleInterval a(M_PI, pi32, true);
+    AngleInterval c(M_PI, 0, false);
+    AngleInterval f1 = AngleInterval::create_full(0, true);
+    AngleInterval f2 = AngleInterval::create_full(M_PI, false);
+
+    EXPECT_EQ(a.angleAt(0), M_PI);
+    EXPECT_EQ(a.angleAt(1), pi32);
+    EXPECT_EQ(a.extent(), M_PI/2);
+    for (Coord t = -1; t <= 2; t += 0.125) {
+        EXPECT_FLOAT_EQ(a.angleAt(t), Angle(lerp(t, M_PI, pi32)));
+    }
+
+    EXPECT_EQ(c.angleAt(0), M_PI);
+    EXPECT_EQ(c.angleAt(1), 0.);
+    EXPECT_EQ(c.extent(), M_PI);
+    for (Coord t = -0.25; t <= 1.25; t += 0.0625) {
+        EXPECT_FLOAT_EQ(c.angleAt(t), Angle(lerp(t, M_PI, 0)));
+    }
+
+    EXPECT_EQ(f1.angleAt(0), 0.);
+    EXPECT_EQ(f1.angleAt(1), 0.);
+    for (Coord t = 0; t < 1; t += 0.125) {
+        EXPECT_FLOAT_EQ(f1.angleAt(t), Angle(lerp(t, 0, 2*M_PI)));
+    }
+    EXPECT_EQ(f2.angleAt(0), M_PI);
+    EXPECT_EQ(f2.angleAt(1), M_PI);
+    for (Coord t = 0; t < 1; t += 0.125) {
+        EXPECT_FLOAT_EQ(f2.angleAt(t), Angle(lerp(t, M_PI, -M_PI)));
+    }
+}
+
+TEST(AngleIntervalTest, Extent) {
+     Coord pi32 = (3./2.)*M_PI;
+    AngleInterval a(M_PI, pi32, true);
+    AngleInterval b(pi32, M_PI, true);
+    AngleInterval c(M_PI, 0, false);
+    AngleInterval d(M_PI/2, M_PI, false);
+
+    EXPECT_EQ(a.extent(), M_PI/2);
+    EXPECT_EQ(a.sweepAngle(), M_PI/2);
+    EXPECT_EQ(b.extent(), pi32);
+    EXPECT_EQ(b.sweepAngle(), pi32);
+    EXPECT_EQ(c.extent(), M_PI);
+    EXPECT_EQ(c.sweepAngle(), -M_PI);
+    EXPECT_EQ(d.extent(), pi32);
+    EXPECT_EQ(d.sweepAngle(), -pi32);
+}