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+/**
+ This file is part of Kig, a KDE program for Interactive Geometry...
+ Copyright (C) 2002  Maurizio Paolini <paolini@dmf.unicatt.it>
+ Copyright (C) 2003  Dominique Devriese <devriese@kde.org>
+
+ This program is free software; you can redistribute it and/or modify
+ it under the terms of the GNU General Public License as published by
+ the Free Software Foundation; either version 2 of the License, or
+ (at your option) any later version.
+
+ This program 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 General Public License for more details.
+
+ You should have received a copy of the GNU General Public License
+ along with this program; if not, write to the Free Software
+ Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA  02110-1301
+ USA
+**/
+
+#ifndef KIG_MISC_KIGTRANSFORM_H
+#define KIG_MISC_KIGTRANSFORM_H
+
+#include "coordinate.h"
+#include <vector>
+
+class LineData;
+
+/**
+ * Class representing a transformation.  More specifically, this class
+ * represents a pretty generic 2-dimensional transformation. Various
+ * common transformations can be used.  Construct a Transformation by
+ * using one of its static members, and use it either with its
+ * Transformation::apply method, or the ObjectImp::transform method.
+ */
+class Transformation
+{
+  double mdata[3][3];
+  bool mIsHomothety;
+  bool mIsAffine;
+  Transformation();
+public:
+  ~Transformation();
+  Transformation( double data[3][3], bool ishomothety );
+
+  /**
+   * Apply this Tranformation.  Apply this transformation to the
+   * Coordinate c.  Can return an invalid Coordinate.
+   * apply0 assumes that c indicates a point at infinity, having
+   * [0, c.x, c.y] as homogeneous coordinates
+   */
+  const Coordinate apply( const double x0, const double x1, const double x2 ) const;
+  const Coordinate apply( const Coordinate& c ) const;
+  const Coordinate apply0( const Coordinate& c ) const;
+
+  /**
+   * Returns whether this is a homothetic (affine) transformation.
+   */
+  bool isHomothetic() const;
+  bool isAffine() const;
+  double getProjectiveIndicator( const Coordinate& c ) const;
+  double getAffineDeterminant() const;
+  double getRotationAngle() const;
+  const Coordinate apply2by2only( const Coordinate& c ) const;
+  /**
+   * \ifnot creating-python-scripting-doc
+   * a homothetic transformation maintains the ratio's of lengths.
+   * This means that every length is multiplied by a fixed number when
+   * it is projected...  This function does that calculation for
+   * you..
+   * \endif
+   */
+  double apply( double length ) const;
+  double data( int r, int c ) const;
+  /**
+   * The inverse Transformation.  Returns the inverse Transformation
+   * of this Transformation.
+   */
+  const Transformation inverse( bool& valid ) const;
+
+  /**
+   * Identity.  Returns the Identity Transformation, i.e. a
+   * Transformation that doesn't do anything.
+   */
+  static const Transformation identity();
+  /**
+   * Scaling over Point.  Returns a Transformation that scales points
+   * by a certain factor with relation to a center point.
+   */
+  static const Transformation scalingOverPoint( double factor, const Coordinate& center = Coordinate() );
+  /**
+   * Scaling over Line.  Returns a Transformation that scales points
+   * by a certain factor with relation to a line.  Note: This is not a
+   * homothetic transformation.
+   */
+  static const Transformation scalingOverLine( double factor, const LineData& l );
+  /**
+   * Translation.  Returns a Translation by a vector c.
+   */
+  static const Transformation translation( const Coordinate& c );
+  /**
+   * Rotation.  Returns a Rotation by a certain angle, around a
+   * certain center.
+   */
+  static const Transformation rotation( double angle, const Coordinate& center = Coordinate() );
+  /**
+   * Point Reflection.  Returns a reflection over a point
+   * \note This equals scaling( -1, c );
+   */
+  static const Transformation pointReflection( const Coordinate& c );
+  /**
+   * Line Reflection.  Returns a reflection over a line
+   * \note This equals scaling( -1, l );
+   */
+  static const Transformation lineReflection( const LineData& l );
+  /**
+   * Harmonic Homology. Returns a Transformation that transforms points in
+   * such a way that it appears to cast a shadow, given a certain
+   * light source (center), and a line (axis) indicating a plane.
+   */
+  static const Transformation harmonicHomology( const Coordinate& center,
+                                          const LineData& axis );
+  /**
+   * Affinity given the image of 3 points. Returns the unique
+   * affinity that transforms 3 given points into 3 given points.
+   */
+  static const Transformation affinityGI3P(
+                const std::vector<Coordinate>& FromPoints,
+                const std::vector<Coordinate>& ToPoints,
+                bool& valid );
+  /**
+   * Projectivity given the image of 4 points. Returns the unique
+   * projectivity that transforms 4 given points into 4 given points.
+   */
+  static const Transformation projectivityGI4P(
+                const std::vector<Coordinate>& FromPoints,
+                const std::vector<Coordinate>& ToPoints,
+                bool& valid );
+  /**
+   * Cast Shadow.  Returns a Transformation that transforms points in
+   * such a way that it appears to cast a shadow, given a certain
+   * light source, and a line indicating a plane.
+   */
+  static const Transformation castShadow( const Coordinate& ls,
+                                          const LineData& d );
+  /**
+   * Projective Rotation.  This is really only a test example of a
+   * projective non-affine transformation...
+   */
+  static const Transformation projectiveRotation( double alpha,
+                                                  const Coordinate& d,
+                                                  const Coordinate& t );
+
+  /**
+   * Similitude.  Sequence of a rotation and a scaling with relation
+   * to a certain center.
+   */
+  static const Transformation similitude(
+    const Coordinate& center, double theta, double factor );
+
+  /**
+   * Sequence.  This creates a Transformation that executes first
+   * transformation b, and then a.
+   */
+  friend const Transformation operator*( const Transformation& a, const Transformation& b );
+
+  /**
+   * Equality.  Tests two Transformation's for equality.
+   */
+  friend bool operator==( const Transformation& lhs, const Transformation& rhs );
+};
+
+const Transformation operator*( const Transformation&, const Transformation& );
+bool operator==( const Transformation& lhs, const Transformation& rhs );
+
+// enum tWantArgsResult { tComplete, tNotComplete, tNotGood };
+
+// Transformation getProjectiveTransformation(
+//   int transformationsnum, Object *mtransformations[],
+//   bool& valid );
+
+// tWantArgsResult WantTransformation ( Objects::const_iterator& i,
+//          const Objects& os );
+
+// QString getTransformMessage ( const Objects& os, const Object *o );
+
+// bool isHomoteticTransformation ( double transformation[3][3] );
+
+#endif // KIG_MISC_KIGTRANSFORM_H