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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 <rtl/ustring.hxx>
+#include <svx/svxdllapi.h>
+#include <tools/degree.hxx>
+#include <tools/fldunit.hxx>
+#include <tools/fract.hxx>
+#include <tools/gen.hxx>
+#include <tools/helpers.hxx>
+#include <tools/mapunit.hxx>
+#include <tools/poly.hxx>
+
+// That maximum shear angle
+constexpr Degree100 SDRMAXSHEAR(8900);
+
+class XPolygon;
+class XPolyPolygon;
+
+inline void MovePoly(tools::Polygon& rPoly, const Size& S) { rPoly.Move(S.Width(),S.Height()); }
+void MoveXPoly(XPolygon& rPoly, const Size& S);
+
+SVXCORE_DLLPUBLIC void ResizeRect(tools::Rectangle& rRect, const Point& rRef, const Fraction& xFact, const Fraction& yFact);
+inline void ResizePoint(Point& rPnt, const Point& rRef, const Fraction& xFract, const Fraction& yFract);
+void ResizePoly(tools::Polygon& rPoly, const Point& rRef, const Fraction& xFact, const Fraction& yFact);
+void ResizeXPoly(XPolygon& rPoly, const Point& rRef, const Fraction& xFact, const Fraction& yFact);
+
+inline void RotatePoint(Point& rPnt, const Point& rRef, double sn, double cs);
+SVXCORE_DLLPUBLIC void RotatePoly(tools::Polygon& rPoly, const Point& rRef, double sn, double cs);
+void RotateXPoly(XPolygon& rPoly, const Point& rRef, double sn, double cs);
+void RotateXPoly(XPolyPolygon& rPoly, const Point& rRef, double sn, double cs);
+
+void MirrorPoint(Point& rPnt, const Point& rRef1, const Point& rRef2);
+void MirrorXPoly(XPolygon& rPoly, const Point& rRef1, const Point& rRef2);
+
+inline void ShearPoint(Point& rPnt, const Point& rRef, double tn, bool bVShear = false);
+SVXCORE_DLLPUBLIC void ShearPoly(tools::Polygon& rPoly, const Point& rRef, double tn);
+void ShearXPoly(XPolygon& rPoly, const Point& rRef, double tn, bool bVShear = false);
+
+/**
+ * rPnt.X/rPnt.Y is set to rCenter.X or rCenter.Y!
+ * We then only need to rotate rPnt by rCenter.
+ *
+ * @return the returned angle is in rad
+ */
+inline double GetCrookAngle(Point& rPnt, const Point& rCenter, const Point& rRad, bool bVertical);
+
+/**
+ * The following methods accept a point of an XPolygon, whereas the neighbouring
+ * control points of the actual point are passed in pC1/pC2.
+ * Via rSin/rCos, sin(nAngle) and cos(nAngle) are returned.
+ *
+ * @return the returned angle is in rad
+ */
+double CrookRotateXPoint(Point& rPnt, Point* pC1, Point* pC2, const Point& rCenter,
+ const Point& rRad, double& rSin, double& rCos, bool bVert);
+double CrookSlantXPoint(Point& rPnt, Point* pC1, Point* pC2, const Point& rCenter,
+ const Point& rRad, double& rSin, double& rCos, bool bVert);
+double CrookStretchXPoint(Point& rPnt, Point* pC1, Point* pC2, const Point& rCenter,
+ const Point& rRad, double& rSin, double& rCos, bool bVert,
+ const tools::Rectangle& rRefRect);
+
+void CrookRotatePoly(XPolygon& rPoly, const Point& rCenter, const Point& rRad, bool bVert);
+void CrookSlantPoly(XPolygon& rPoly, const Point& rCenter, const Point& rRad, bool bVert);
+void CrookStretchPoly(XPolygon& rPoly, const Point& rCenter, const Point& rRad, bool bVert, const tools::Rectangle& rRefRect);
+
+void CrookRotatePoly(XPolyPolygon& rPoly, const Point& rCenter, const Point& rRad, bool bVert);
+void CrookSlantPoly(XPolyPolygon& rPoly, const Point& rCenter, const Point& rRad, bool bVert);
+void CrookStretchPoly(XPolyPolygon& rPoly, const Point& rCenter, const Point& rRad, bool bVert, const tools::Rectangle& rRefRect);
+
+/**************************************************************************************************/
+/* Inline */
+/**************************************************************************************************/
+
+inline void ResizePoint(Point& rPnt, const Point& rRef, const Fraction& xFract, const Fraction& yFract)
+{
+ double nxFract = xFract.IsValid() ? static_cast<double>(xFract) : 1.0;
+ double nyFract = yFract.IsValid() ? static_cast<double>(yFract) : 1.0;
+ rPnt.setX(rRef.X() + FRound( (rPnt.X() - rRef.X()) * nxFract ));
+ rPnt.setY(rRef.Y() + FRound( (rPnt.Y() - rRef.Y()) * nyFract ));
+}
+
+inline void RotatePoint(Point& rPnt, const Point& rRef, double sn, double cs)
+{
+ tools::Long dx=rPnt.X()-rRef.X();
+ tools::Long dy=rPnt.Y()-rRef.Y();
+ rPnt.setX(FRound(rRef.X()+dx*cs+dy*sn));
+ rPnt.setY(FRound(rRef.Y()+dy*cs-dx*sn));
+}
+
+inline void ShearPoint(Point& rPnt, const Point& rRef, double tn, bool bVShear)
+{
+ if (!bVShear) { // Horizontal
+ if (rPnt.Y()!=rRef.Y()) { // else not needed
+ rPnt.AdjustX(-FRound((rPnt.Y()-rRef.Y())*tn));
+ }
+ } else { // or else vertical
+ if (rPnt.X()!=rRef.X()) { // else not needed
+ rPnt.AdjustY(-FRound((rPnt.X()-rRef.X())*tn));
+ }
+ }
+}
+
+inline double GetCrookAngle(Point& rPnt, const Point& rCenter, const Point& rRad, bool bVertical)
+{
+ double nAngle;
+ if (bVertical) {
+ tools::Long dy=rPnt.Y()-rCenter.Y();
+ nAngle=static_cast<double>(dy)/static_cast<double>(rRad.Y());
+ rPnt.setY(rCenter.Y());
+ } else {
+ tools::Long dx=rCenter.X()-rPnt.X();
+ nAngle=static_cast<double>(dx)/static_cast<double>(rRad.X());
+ rPnt.setX(rCenter.X());
+ }
+ return nAngle;
+}
+
+/**************************************************************************************************/
+/**************************************************************************************************/
+
+/**
+ * The Y axis points down!
+ * The function negates the Y axis, when calculating the angle, such
+ * that GetAngle(Point(0,-1))=90 deg.
+ * GetAngle(Point(0,0)) returns 0.
+ *
+ * @return the returned value is in the range of -180.00..179.99 deg
+ * and is in 1/100 deg units
+ */
+SVXCORE_DLLPUBLIC Degree100 GetAngle(const Point& rPnt);
+
+Degree100 NormAngle18000(Degree100 a); /// Normalize angle to -180.00..179.99
+
+SVXCORE_DLLPUBLIC Degree100 NormAngle36000(Degree100 a); /// Normalize angle to 0.00..359.99
+
+sal_uInt16 GetAngleSector(Degree100 nAngle); /// Determine sector within the cartesian coordinate system
+
+/**
+ * Calculates the length of (0,0) via a^2 + b^2 = c^2
+ * In order to avoid overflows, we ignore some decimal places.
+ */
+tools::Long GetLen(const Point& rPnt);
+
+/**
+ * The transformation of a rectangle into a polygon, by
+ * using angle parameters from GeoStat. ------------
+ * The point of reference is always the Point 0, meaning /1 2/
+ * the upper left corner of the initial rectangle. / /
+ * When calculating the polygon, the order is first / /
+ * shear and then the rotation. / /
+ * / / \
+ * / / |
+ * A) Initial rectangle aRect B) After applying Shear /0 3/ Rot|
+ * +------------------+ -------------------- ------------------
+ * |0 1| \0 1\ C) After applying Rotate
+ * | | \ \
+ * | | | \ \
+ * |3 2| | \3 2\
+ * +------------------+ | --------------------
+ * |Shr
+ *
+ * When converting the polygon back into a rect, the order is necessarily the
+ * other way around:
+ * - Calculating the rotation angle: angle of the line 0-1 in figure C) to the horizontal
+ * - Turning the sheared rect back (we get figure B)
+ * - Determining the width of the rect = length of the line 0-1 in figure B)
+ * - Determining the height of the rect = vertical distance between the points 0 and 3
+ * of figure B)
+ * - Determining the shear angle from the line 0-3 to the perpendicular line.
+ *
+ * We need to keep in mind that the polygon can be mirrored when it was
+ * transformed in the meantime (e.g. mirror or resize with negative factor).
+ * In that case, we first need to normalize, by swapping points (0 with 3 and 1
+ * with 2), so that it has the right orientation.
+ *
+ * Note: a positive shear angle means a shear with a positive visible curvature
+ * on the screen. Mathematically, that would be a negative curvature, as the
+ * Y axis runs from top to bottom on the screen.
+ * Rotation angle: positive means a visible left rotation.
+ */
+
+class GeoStat { // Geometric state for a rect
+public:
+ Degree100 nRotationAngle;
+ Degree100 nShearAngle;
+ double mfTanShearAngle; // tan(nShearAngle)
+ double mfSinRotationAngle; // sin(nRotationAngle)
+ double mfCosRotationAngle; // cos(nRotationAngle)
+
+ GeoStat(): nRotationAngle(0),nShearAngle(0),mfTanShearAngle(0.0),mfSinRotationAngle(0.0),mfCosRotationAngle(1.0) {}
+ void RecalcSinCos();
+ void RecalcTan();
+};
+
+tools::Polygon Rect2Poly(const tools::Rectangle& rRect, const GeoStat& rGeo);
+void Poly2Rect(const tools::Polygon& rPol, tools::Rectangle& rRect, GeoStat& rGeo);
+
+void OrthoDistance8(const Point& rPt0, Point& rPt, bool bBigOrtho);
+void OrthoDistance4(const Point& rPt0, Point& rPt, bool bBigOrtho);
+
+// Multiplication and subsequent division
+// Calculation and intermediate values are in BigInt
+SVXCORE_DLLPUBLIC tools::Long BigMulDiv(tools::Long nVal, tools::Long nMul, tools::Long nDiv);
+
+class FrPair {
+ Fraction aX;
+ Fraction aY;
+public:
+ FrPair(const Fraction& rBoth) : aX(rBoth),aY(rBoth) {}
+ FrPair(const Fraction& rX, const Fraction& rY) : aX(rX),aY(rY) {}
+ FrPair(tools::Long nMul, tools::Long nDiv) : aX(nMul,nDiv),aY(nMul,nDiv) {}
+ FrPair(tools::Long xMul, tools::Long xDiv, tools::Long yMul, tools::Long yDiv): aX(xMul,xDiv),aY(yMul,yDiv) {}
+ const Fraction& X() const { return aX; }
+ const Fraction& Y() const { return aY; }
+ Fraction& X() { return aX; }
+ Fraction& Y() { return aY; }
+};
+
+// To convert units of measurement
+SVXCORE_DLLPUBLIC FrPair GetMapFactor(MapUnit eS, MapUnit eD);
+FrPair GetMapFactor(FieldUnit eS, FieldUnit eD);
+
+inline bool IsMetric(MapUnit eU) {
+ return (eU==MapUnit::Map100thMM || eU==MapUnit::Map10thMM || eU==MapUnit::MapMM || eU==MapUnit::MapCM);
+}
+
+inline bool IsInch(MapUnit eU) {
+ return (eU==MapUnit::Map1000thInch || eU==MapUnit::Map100thInch || eU==MapUnit::Map10thInch || eU==MapUnit::MapInch ||
+ eU==MapUnit::MapPoint || eU==MapUnit::MapTwip);
+}
+
+inline bool IsMetric(FieldUnit eU) {
+ return (eU == FieldUnit::MM || eU == FieldUnit::CM || eU == FieldUnit::M
+ || eU == FieldUnit::KM || eU == FieldUnit::MM_100TH);
+}
+
+inline bool IsInch(FieldUnit eU) {
+ return (eU == FieldUnit::TWIP || eU == FieldUnit::POINT
+ || eU == FieldUnit::PICA || eU == FieldUnit::INCH
+ || eU == FieldUnit::FOOT || eU == FieldUnit::MILE);
+}
+
+class SVXCORE_DLLPUBLIC SdrFormatter {
+ tools::Long nMul_;
+ tools::Long nDiv_;
+ short nComma_;
+ bool bDirty;
+ MapUnit eSrcMU;
+ MapUnit eDstMU;
+private:
+ SVX_DLLPRIVATE void Undirty();
+public:
+ SdrFormatter(MapUnit eSrc, MapUnit eDst)
+ : nMul_(0)
+ , nDiv_(0)
+ , nComma_(0)
+ , bDirty(true)
+ , eSrcMU(eSrc)
+ , eDstMU(eDst)
+ {
+ }
+ OUString GetStr(tools::Long nVal) const;
+ static OUString GetUnitStr(MapUnit eUnit);
+ static OUString GetUnitStr(FieldUnit eUnit);
+};
+
+/* vim:set shiftwidth=4 softtabstop=4 expandtab: */