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diff --git a/include/basegfx/curve/b2dcubicbezier.hxx b/include/basegfx/curve/b2dcubicbezier.hxx
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+++ b/include/basegfx/curve/b2dcubicbezier.hxx
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+/* -*- Mode: C++; tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 4 -*- */
+/*
+ * This file is part of the LibreOffice project.
+ *
+ * This Source Code Form is subject to the terms of the Mozilla Public
+ * License, v. 2.0. If a copy of the MPL was not distributed with this
+ * file, You can obtain one at http://mozilla.org/MPL/2.0/.
+ *
+ * This file incorporates work covered by the following license notice:
+ *
+ *   Licensed to the Apache Software Foundation (ASF) under one or more
+ *   contributor license agreements. See the NOTICE file distributed
+ *   with this work for additional information regarding copyright
+ *   ownership. The ASF licenses this file to you under the Apache
+ *   License, Version 2.0 (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.apache.org/licenses/LICENSE-2.0 .
+ */
+
+#pragma once
+
+#include <basegfx/point/b2dpoint.hxx>
+#include <basegfx/range/b2drange.hxx>
+#include <basegfx/basegfxdllapi.h>
+
+namespace basegfx
+{
+    class B2DPolygon;
+}
+
+namespace basegfx
+{
+    class BASEGFX_DLLPUBLIC B2DCubicBezier
+    {
+    private:
+        B2DPoint                                        maStartPoint;
+        B2DPoint                                        maEndPoint;
+        B2DPoint                                        maControlPointA;
+        B2DPoint                                        maControlPointB;
+
+    public:
+        B2DCubicBezier();
+        B2DCubicBezier(const B2DCubicBezier& rBezier);
+        B2DCubicBezier(const B2DPoint& rStart, const B2DPoint& rControlPointA, const B2DPoint& rControlPointB, const B2DPoint& rEnd);
+
+        // assignment operator
+        B2DCubicBezier& operator=(const B2DCubicBezier& rBezier);
+
+        // compare operators
+        bool operator==(const B2DCubicBezier& rBezier) const;
+        bool operator!=(const B2DCubicBezier& rBezier) const;
+        bool equal(const B2DCubicBezier& rBezier) const;
+
+        // test if vectors are used
+        bool isBezier() const;
+
+        // test if contained bezier is trivial and reset vectors accordingly
+        void testAndSolveTrivialBezier();
+
+        /** get length of edge
+
+            This method handles beziers and simple edges. For
+            beziers, the deviation describes the maximum allowed
+            deviation from the real edge length. The default
+            allows a deviation of 1% from the correct length.
+
+            For beziers, there is no direct way to get the length,
+            thus this method may subdivide the bezier edge and may
+            not be cheap.
+
+            @param fDeviation
+            The maximal allowed deviation between correct length
+            and bezier edge length
+
+            @return
+            The length of the edge
+        */
+        double getLength(double fDeviation = 0.01) const;
+
+        // get distance between start and end point
+        SAL_DLLPRIVATE double getEdgeLength() const;
+
+        // get length of control polygon
+        SAL_DLLPRIVATE double getControlPolygonLength() const;
+
+        // data interface
+        const B2DPoint& getStartPoint() const { return maStartPoint; }
+        void setStartPoint(const B2DPoint& rValue) { maStartPoint = rValue; }
+
+        const B2DPoint& getEndPoint() const { return maEndPoint; }
+        void setEndPoint(const B2DPoint& rValue) { maEndPoint = rValue; }
+
+        const B2DPoint& getControlPointA() const { return maControlPointA; }
+        void setControlPointA(const B2DPoint& rValue) { maControlPointA = rValue; }
+
+        const B2DPoint& getControlPointB() const { return maControlPointB; }
+        void setControlPointB(const B2DPoint& rValue) { maControlPointB = rValue; }
+
+        /** get the tangent in point t
+
+            This method handles all the exceptions, e.g. when control point
+            A is equal to start point and/or control point B is equal to end
+            point
+
+            @param t
+            The bezier index in the range [0.0 .. 1.0]. It will be truncated.
+
+            @return
+            The tangent vector in point t
+        */
+        B2DVector getTangent(double t) const;
+
+        /** adaptive subdivide by angle criteria
+            no start point is added, but all necessary created edges
+            and the end point
+            #i37443# allow the criteria to get unsharp in recursions
+        */
+        SAL_DLLPRIVATE void adaptiveSubdivideByAngle(B2DPolygon& rTarget, double fAngleBound) const;
+
+        /** #i37443# adaptive subdivide by nCount subdivisions
+            no start point is added, but all necessary created edges
+            and the end point
+        */
+        SAL_DLLPRIVATE void adaptiveSubdivideByCount(B2DPolygon& rTarget, sal_uInt32 nCount) const;
+
+        /** Subdivide cubic bezier segment.
+
+            This function adaptively subdivides the bezier
+            segment into as much straight line segments as necessary,
+            such that the maximal orthogonal distance from any of the
+            segments to the true curve is less than the given error
+            value.
+            No start point is added, but all necessary created edges
+            and the end point
+
+            @param rPoly
+            Output polygon. The subdivided bezier segment is added to
+            this polygon via B2DPolygon::append().
+
+            @param rCurve
+            The cubic bezier curve to subdivide
+
+            @param fDistanceBound
+            Bound on the maximal distance of the approximation to the
+            true curve.
+        */
+        void adaptiveSubdivideByDistance(B2DPolygon& rTarget, double fDistanceBound) const;
+
+        // get point at given relative position
+        B2DPoint interpolatePoint(double t) const;
+
+        // calculate the smallest distance from given point to this cubic bezier segment
+        // and return the value. The relative position on the segment is returned in rCut.
+        SAL_DLLPRIVATE double getSmallestDistancePointToBezierSegment(const B2DPoint& rTestPoint, double& rCut) const;
+
+        // do a split at position t and fill both resulting segments
+        void split(double t, B2DCubicBezier* pBezierA, B2DCubicBezier* pBezierB) const;
+
+        // extract snippet from fStart to fEnd from this bezier
+        SAL_DLLPRIVATE B2DCubicBezier snippet(double fStart, double fEnd) const;
+
+        // get range including control points
+        B2DRange getRange() const;
+
+        /** Get the minimum extremum position t
+
+            @param rfResult
+            Will be changed and might possibly be set to a found split value, which should be in the
+            range [0.0 .. 1.0]. It will be the smallest current extremum; there may be more
+
+            @return
+            Returns true if there was at least one extremum found
+        */
+        SAL_DLLPRIVATE bool getMinimumExtremumPosition(double& rfResult) const;
+
+        /** Get all extremum pos of this segment
+
+            This method will calculate all extremum positions of the segment
+            and add them to rResults if they are in the range ]0.0 .. 1.0[
+
+            @param rResults
+            The vector of doubles where the results will be added. Evtl.
+            existing contents will be removed since an empty vector is a
+            necessary result to express that there are no extreme positions
+            anymore. Since there is an upper maximum of 4 values, it makes
+            sense to use reserve(4) at the vector as preparation.
+        */
+        SAL_DLLPRIVATE void getAllExtremumPositions(::std::vector< double >& rResults) const;
+
+        /// apply transformation given in matrix form
+        void transform(const basegfx::B2DHomMatrix& rMatrix);
+
+        /// fround content
+        SAL_DLLPRIVATE void fround();
+    };
+} // end of namespace basegfx
+
+/* vim:set shiftwidth=4 softtabstop=4 expandtab: */