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///////////////////////////////////////////////////////////////
//
// Written By: James Poag
//
// http://sexyfaq.jamespoag.com
//
///////////////////////////////////////////////////////////////
//
// Cubic Class, RegenerateSpline, and RegenrateClosedSpline
//  written by Tim Lambert.
//
// http://www.cse.unsw.edu.au/~lambert/
//
// Thanks to Brian "Ace" Rothstein For pointing me to Tim.
//
// Special Thanks to Paul Hamilton.
// http://www.mooktowngames.com
// http://mooktown.blogspot.com
//
///////////////////////////////////////////////////////////////

//////////////////////////////////////////////////////////////
// Usage
//////////////////////////////////////////////////////////////
//
// Use AddPoint() to create a Spline. 3 or more points are 
// required to create a cubic spline.
//
// Think of the spline as a long straight line.  Addressing
// a Point on the line with a single distance variable. The
// Spline will return 2D coordinates for the position passed
// into 'GetPointAt'.  'GetTangentAt' reports the direction
// of travel.  Use 'atan2' to turn the tangent into a rotation.
//
// The rest of the functions are used in creating and refining 
// the Spline in an editor
//
//////////////////////////////////////////////////////////////

#include <vector>
#include "Point.h"

namespace Sexy
{
	class Graphics;
	class XMLWriter;
	class XMLElement;
	class XMLParser;
};

class Cubic
{
	float a,b,c,d;         /* a + b*u + c*u^2 +d*u^3 */

public:
	Cubic(float a, float b, float c, float d){
		this->a = a;
		this->b = b;
		this->c = c;
		this->d = d;
	}
	~Cubic(){};

	/** evaluate cubic */
public:
	float eval(float u) {
		return (((d*u) + c)*u + b)*u + a;
	}

	float tangent(float u){
		return ((3*d*u) + 2*c)*u + b;
	}
};
class NaturalCubicSpline
{
protected:
	std::vector<Cubic>			mYCubics;
	std::vector<Cubic>			mXCubics;
	std::vector<float>			mXCoords;
	std::vector<float>			mYCoords;

	std::vector<Sexy::Point>	mPoints;
	std::vector<Sexy::FPoint>	mSpline;

	std::vector<float>			mSplineSegmentLengths;

	virtual void RegenerateSpline(std::vector<float>& theInput, std::vector<Cubic>& theOutput);
	virtual void RegenerateClosedSpline(std::vector<float>& theInput, std::vector<Cubic>& theOutput);
	virtual float GetMinUFromLineAB(Sexy::FPoint A, Sexy::FPoint B, Sexy::Point C);
	virtual float GetMinDistanceFromLineAB(Sexy::FPoint A, Sexy::FPoint B, Sexy::Point C);

	float			mArcLength;
	unsigned int	mGranularity;

	bool			mClosed;

public:
	NaturalCubicSpline(void);
	virtual ~NaturalCubicSpline(void);

	// Drawing Functions
	virtual void				Draw(Sexy::Graphics* g); //Example on how to draw 
	virtual void				DrawControlPoint(Sexy::Graphics* g, int theControlPointId, int theWidth);
	virtual void				DrawSplineSegment(Sexy::Graphics* g, int theSplineSegmentId);

	// The main functions
	virtual void				AddPoint(Sexy::Point thePoint);
	virtual void				RegenerateSplines();	// You Shouldn't have to call this.
	virtual Sexy::Point			GetPointAt(float theDistanceOnTheSpline);
	virtual Sexy::FPoint		GetTangentAt(float theLength);

	// ADT functions
	virtual int					GetNumControlPoints(){return (int)mPoints.size();};
	virtual int					GetNumSplineSegments(){return (int)mXCubics.size();};
	virtual float				GetArcLength(){return mArcLength;};
	virtual void				SetClosed(bool bClosed){mClosed = bClosed; RegenerateSplines();};
	virtual bool				isClosed(){return mClosed;};
	virtual int					GetGranularity(){return mGranularity;};
	virtual void				SetGranularity(int theGranularity){mGranularity = theGranularity; RegenerateSplines();};

	// For Curve Refinement
	virtual void				BisectSegment(int theSplineSegmentId);
	virtual void				DeleteControlPoint(int theControlPointId);
	virtual void				ClearAllPoints();

	// Picking Helper Functions
	virtual float				GetClosestPointOnSegmentToPoint(Sexy::Point thePoint);
	virtual int					GetControlPointIdNear(Sexy::Point thePoint);
	virtual int					GetSegmentIdNear(Sexy::Point thePoint);
	virtual Sexy::Point			GetControlPoint(int theControlPointId);
	virtual void				SetControlPoint(int theControlPointId, Sexy::Point thePoint);

	//Serialization
	virtual void				Serialize(Sexy::XMLWriter* theWriter);
	virtual void				Serialize(Sexy::XMLParser* theParser, Sexy::XMLElement* theNode);

	virtual void				SaveToFile(std::string theFileName);
	virtual void				OpenFile(std::string theFileName);
};