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// This may look like C code, but it's really -*- C++ -*-
/*
 * Copyright (C) 2008 Emweb bvba, Kessel-Lo, Belgium.
 *
 * See the LICENSE file for terms of use.
 */
#ifndef WPAINTERPATH_H_
#define WPAINTERPATH_H_

#include <Wt/WPointF>
#include <Wt/WRectF>
#include <Wt/WTransform>
#include <vector>

namespace Wt {

/*! \class WPainterPath Wt/WPainterPath Wt/WPainterPath
 *  \brief A path defining a shape.
 *
 * A painter path represents a (complex) path that may be composed of
 * lines, arcs and bezier curve segments, and painted onto a paint device
 * using WPainter::drawPath().
 *
 * The path that is composed in a painter path may consist of multiple
 * closed sub-paths. Only the last sub-path can be left open.
 *
 * To compose a path, this class maintains a current position, which
 * is the starting point for the next drawing operation. An operation
 * may draw a line (see lineTo()), arc (see arcTo()), or bezier curve
 * (see quadTo() and cubicTo()) from the current position to a new
 * position. A new sub path may be started by moving the current
 * position to a new location (see moveTo()), which automatically
 * closes the previous sub path.
 *
 * When sub paths overlap, the result is undefined (it is dependent on
 * the underlying painting device).
 *
 * Usage example:
 * \if cpp
 * \code
 * Wt::WPainter painter(...);
 *
 * Wt::WPainterPath path(Wt::WPointF(10, 10));
 * path.lineTo(10, 20);
 * path.lineTo(30, 20);
 * path.closeSubPath();
 *
 * painter.setPen(Wt::red);
 * painter.setBrush(Wt::blue);
 * painter.drawPath(path);
 * \endcode
 * \elseif java
 * \code
 * WPainter painter = new WPainter();
 *	 
 * WPainterPath path = new WPainterPath(new WPointF(10, 10));
 * path.lineTo(10, 20);
 * path.lineTo(30, 20);
 * path.closeSubPath();
 *		 
 * painter.setPen(new WPen(WColor.red));
 * painter.setBrush(new WBrush(WColor.blue));
 * painter.drawPath(path);
 * \endcode
 * \endif
 *
 * \sa WPainter::drawPath()
 *
 * \ingroup painting
 */
class WT_API WPainterPath
{
public:
  /*! \brief Default constructor.
   *
   * Creates an empty path, and sets the current position to (0, 0).
   */
  WPainterPath();

  /*! \brief Construct a new path, and set the initial position.
   *
   * Creates an empty path, and sets the current position to
   * \p startPoint.
   */
  WPainterPath(const WPointF& startPoint);

  /*! \brief Copy constructor.
   */
  WPainterPath(const WPainterPath& path);

  /*! \brief Assignment operator.
   */
  WPainterPath& operator= (const WPainterPath& path);

  /*! \brief Returns the current position.
   *
   * Returns the current position, which is the end point of the last
   * move or draw operation, and which well be the start point of the
   * next draw operation.
   */
  WPointF currentPosition() const;

  /*! \brief Returns whether the path is empty.
   *
   * Returns \c true if the path contains no drawing operations. Note that
   * move operations are not considered drawing operations.
   */
  bool isEmpty() const;

  /*! \brief Comparison operator.
   *
   * Returns \c true if the paths are exactly the same.
   */
  bool operator== (const WPainterPath& path) const;  

  /*! \brief Comparison operator.
   *
   * Returns \c true if the paths are different.
   */
  bool operator!= (const WPainterPath& path) const;

  /*! \brief Closes the last sub path.
   *
   * Draws a line from the current position to the start position of
   * the last sub path (which is the end point of the last move
   * operation), and sets the current position to (0, 0).
   */
  void closeSubPath();
  
  /*! \brief Moves the current position to a new location.
   *
   * Moves the current position to a new point, implicitly closing the last
   * sub path.
   *
   * \sa closeSubPath(), moveTo(double, double)
   */
  void moveTo(const WPointF& point);
  
  /*! \brief Moves the current position to a new location.
   *
   * Moves the current position to a new point, implicitly closing the last
   * sub path.
   *
   * \sa closeSubPath(), moveTo(const WPointF&)
   */
  void moveTo(double x, double y);
  
  /*! \brief Draws a straight line.
   *
   * Draws a straight line from the current position to \p point,
   * which becomes the new current position.
   *
   * \sa lineTo(double, double)
   */
  void lineTo(const WPointF& point);
  
  /*! \brief Draws a straight line.
   *
   * Draws a straight line from the current position to (\p x,
   * \p y), which becomes the new current position.
   *
   * \sa lineTo(const WPointF&)
   */
  void lineTo(double x, double y);
  
  /*! \brief Draws a cubic bezier curve.
   *
   * Draws a cubic bezier curve from the current position to
   * \p endPoint, which becomes the new current position. The
   * bezier curve uses the two control points <i>c1</i> and \p c2.
   *
   * \sa cubicTo(double, double, double, double, double, double)
   */
  void cubicTo(const WPointF& c1, const WPointF& c2, const WPointF& endPoint);
  
  /*! \brief Draws a cubic bezier curve.
   *
   * This is an overloaded method provided for convenience.
   *
   * \sa cubicTo(const WPointF&, const WPointF&, const WPointF&)
   */
  void cubicTo(double c1x, double c1y, double c2x, double c2y,
	       double endPointx, double endPointy);
  
  /*! \brief Draws an arc.
   *
   * Draws an arc which is a segment of a circle. The circle is
   * defined with center (<i>cx</i>, <i>cy</i>) and \p radius. The
   * segment starts at \p startAngle, and spans an angle given by
   * \p spanAngle. These angles are expressed in degrees, and are
   * measured counter-clockwise starting from the 3 o'clock position.
   *
   * Implicitly draws a line from the current position to the start of
   * the arc, if the current position is different from the start.
   *
   * \sa arcMoveTo()
   */
  void arcTo(double cx, double cy, double radius,
	     double startAngle, double spanAngle);

  /*! \brief Moves to a point on an arc.
   *
   * Moves to a point on a circle. The circle is defined with center
   * (<i>cx</i>, <i>cy</i>) and \p radius, and the point is at
   * \p angle degrees measured counter-clockwise starting from the
   * 3 o'clock position.
   *
   * \sa arcTo()
   */
  void arcMoveTo(double cx, double cy, double radius, double angle);

  /*! \brief Move to a point on an arc.
   *
   * Moves to a point on an ellipse. The ellipse fits in the
   * rectangle defined by top left position (\p x,
   * <i>y</i>), and size <i>width</i> x \p height, and the point is at
   * \p angle degrees measured counter-clockwise starting from the
   * 3 o'clock position.
   *
   * \sa arcTo()
   */
  void arcMoveTo(double x, double y, double width, double height, double angle);

  /*! \brief Draws a quadratic bezier curve
   *
   * Draws a quadratic bezier curve from the current position to
   * \p endPoint, which becomes the new current position. The
   * bezier curve uses the single control point \p c.
   *
   * \sa quadTo(double, double, double, double)
   */
  void quadTo(const WPointF& c, const WPointF& endPoint);

  /*! \brief Draws a quadratic bezier curve.
   *
   * This is an overloaded method provided for convenience.
   *
   * \sa quadTo(const WPointF&, const WPointF&)
   */
  void quadTo(double cx, double cy, double endPointx, double endPointy);

  /*! \brief Draws an ellipse.
   *
   * This method closes the current sub path, and adds an ellipse that is
   * bounded by the rectangle \p boundingRectangle.
   *
   * \p Note: some renderers only support circles (width == height)
   *
   * \sa addEllipse(double, double, double, double), arcTo()
   */
  void addEllipse(const WRectF& boundingRectangle);

  /*! \brief Draws an ellipse.
   *
   * This method closes the current sub path, and adds an ellipse that is
   * bounded by the rectangle defined by top left position (\p x,
   * <i>y</i>), and size <i>width</i> x \p height.
   *
   * \note Some renderers only support circles (width == height)
   *
   * \sa addEllipse(const WRectF&), arcTo()
   */
  void addEllipse(double x, double y, double width, double height);

  /*! \brief Draws a rectangle.
   *
   * This method closes the current sub path, and adds a rectangle
   * that is defined by \p rectangle.
   *
   * \sa addRect(double, double, double, double)
   */
  void addRect(const WRectF& rectangle);

  /*! \brief Draws a rectangle.
   *
   * This method closes the current sub path, and adds a rectangle
   * that is defined by top left position (<i>x</i>, \p y), and
   * size <i>width</i> x \p height.
   *
   * \sa addRect(const WRectF&)
   */
  void addRect(double x, double y, double width, double height);

  /*! \brief Adds a polygon.
   *
   * If the first point is different from the current position, the last
   * sub path is first closed, otherwise the last sub path is extended
   * with the polygon.
   *
   * \sa moveTo(), lineTo()
   */
  void addPolygon(const std::vector<WPointF>& points);

  /*! \brief Adds a path.
   *
   * Adds an entire \p path to the current path. If the path's
   * begin position is different from the current position, the last
   * sub path is first closed, otherwise the last sub path is extended
   * with the path's first sub path.
   *
   * \sa connectPath(const WPainterPath&)
   */
  void addPath(const WPainterPath& path);

  /*! \brief Adds a path, connecting.
   *
   * Adds an entire \p path to the current path. If the path's
   * begin position is different from the current position, the last
   * sub path is first closed, otherwise the last sub path is extended
   * with the path's first sub path.
   *
   * \sa connectPath(const WPainterPath&)
   */
  void connectPath(const WPainterPath& path);

  /*! \brief A segment.
   */
  class Segment {
  public:
    enum Type {
      MoveTo, LineTo,
      CubicC1, CubicC2, CubicEnd,
      QuadC, QuadEnd,
      ArcC, ArcR, ArcAngleSweep 
    };

    double x() const { return x_; }
    double y() const { return y_; }
    Type   type() const { return type_; }

    bool operator== (const Segment& other) const;
    bool operator!= (const Segment& other) const;

  private:
    Segment(double x, double y, Type type);

    double x_, y_;
    Type   type_;

    friend class WPainterPath;
  };

  const std::vector<Segment>& segments() const { return segments_; }

  /* Returns the start position before drawing segment i */
  WPointF positionAtSegment(int i) const;

  bool asRect(WRectF& result) const;

  /*! \brief Returns the bounding box of the control points.
   *
   * Returns the bounding box of all control points. This is guaranteed to
   * be a superset of the actual bounding box.
   *
   * The \p transform is applied to the path first.
   */
  WRectF controlPointRect(const WTransform& transform = WTransform::Identity)
    const;

private:
  bool isRect_;
  std::vector<Segment> segments_;

  WPointF getSubPathStart() const;
  WPointF beginPosition() const;

  static WPointF getArcPosition(double cx, double cy, double rx, double ry,
				double angle);

  /* Draws an arc (<b>deprecated</b>).
   *
   * Draws an arc which is a segment of an ellipse, which fits in the
   * rectangle defined by top left position (\p x,
   * <i>y</i>), and size <i>width</i> x \p height. The segment starts at
   * \p startAngle, and spans an angle given by
   * \p spanAngle. These angles are expressed in degrees, and are
   * measured counter-clockwise starting from the 3 o'clock position.
   *
   * \sa arcMoveTo(double cx, double cy, double radius, double startAngle, double sweepLength)
   */
  void arcTo(double x, double y, double width, double height,
	     double startAngle, double sweepLength);

  friend class WSvgImage;
};

}

#endif // WPAINTERPATH_H_