src/WinLibs/FTGL/include/FTVectoriser.h - vendor/opensource/projectM - Git at Google

 #ifndef     __FTVectoriser__
 #define     __FTVectoriser__


 #include "FTContour.h"
 #include "FTList.h"
 #include "FTPoint.h"
 #include "FTVector.h"
 #include "FTGL.h"


 #ifndef CALLBACK
 #define CALLBACK
 #endif


 /**
  * FTTesselation captures points that are output by OpenGL's gluTesselator.
  */
 class FTGL_EXPORT FTTesselation
 {
     public:
         /**
          * Default constructor
          */
         FTTesselation( GLenum m)
         :	meshType(m)
         {
             pointList.reserve( 128);
         }

         /**
          *  Destructor
          */
         ~FTTesselation()
         {
             pointList.clear();
         }

         /**
          * Add a point to the mesh.
          */
         void AddPoint( const FTGL_DOUBLE x, const FTGL_DOUBLE y, const FTGL_DOUBLE z)
         {
             pointList.push_back( FTPoint( x, y, z));
         }

         /**
          * The number of points in this mesh
          */
         size_t PointCount() const { return pointList.size();}

         /**
          *
          */
         const FTPoint& Point( unsigned int index) const { return pointList[index];}

         /**
          * Return the OpenGL polygon type.
          */
         GLenum PolygonType() const { return meshType;}

     private:
         /**
          * Points generated by gluTesselator.
          */
         typedef FTVector<FTPoint> PointVector;
         PointVector pointList;

         /**
          * OpenGL primitive type from gluTesselator.
          */
         GLenum meshType;
 };


 /**
  * FTMesh is a container of FTTesselation's that make up a polygon glyph
  */
 class FTGL_EXPORT FTMesh
 {
 	typedef FTVector<FTTesselation*> TesselationVector;
 	typedef FTList<FTPoint> PointList;

     public:
         /**
          * Default constructor
          */
         FTMesh();

         /**
          *  Destructor
          */
         ~FTMesh();

         /**
          * Add a point to the mesh
          */
         void AddPoint( const FTGL_DOUBLE x, const FTGL_DOUBLE y, const FTGL_DOUBLE z);

         /**
          *  Create a combine point for the gluTesselator
          */
         const FTGL_DOUBLE* Combine( const FTGL_DOUBLE x, const FTGL_DOUBLE y, const FTGL_DOUBLE z);

         /**
          * Begin a new polygon
          */
         void Begin( GLenum meshType);

         /**
          * End a polygon
          */
         void End();

         /**
          * Record a gluTesselation error
          */
         void Error( GLenum e) { err = e;}

         /**
          * The number of tesselations in the mesh
          */
         unsigned int TesselationCount() const { return tesselationList.size();}

         /**
          * Get a tesselation by index
          */
         const FTTesselation* const Tesselation( unsigned int index) const;

         /**
          * Return the temporary point list. For testing only.
          */
         const PointList& TempPointList() const { return tempPointList;}

         /**
          * Get the GL ERROR returned by the glu tesselator
          */
         GLenum Error() const { return err;}

     private:
         /**
          * The current sub mesh that we are constructing.
          */
         FTTesselation* currentTesselation;

         /**
          * Holds each sub mesh that comprises this glyph.
          */
         TesselationVector tesselationList;

         /**
          * Holds extra points created by gluTesselator. See ftglCombine.
          */
         PointList tempPointList;

         /**
          * GL ERROR returned by the glu tesselator
          */
         GLenum err;

 };

 const FTGL_DOUBLE FTGL_FRONT_FACING = 1.0;
 const FTGL_DOUBLE FTGL_BACK_FACING = -1.0;

 /**
  * FTVectoriser class is a helper class that converts font outlines into
  * point data.
  *
  * @see FTExtrdGlyph
  * @see FTOutlineGlyph
  * @see FTPolyGlyph
  * @see FTContour
  * @see FTPoint
  *
  */
 class FTGL_EXPORT FTVectoriser
 {
     public:
         /**
          * Constructor
          *
          * @param glyph The freetype glyph to be processed
          */
         FTVectoriser( const FT_GlyphSlot glyph);

         /**
          *  Destructor
          */
         virtual ~FTVectoriser();

         /**
          * Build an FTMesh from the vector outline data.
          *
          * @param zNormal   The direction of the z axis of the normal
          *                  for this mesh
          */
         void MakeMesh( FTGL_DOUBLE zNormal = FTGL_FRONT_FACING);

         /**
          * Get the current mesh.
          */
         const FTMesh* const GetMesh() const { return mesh;}

         /**
          * Get the total count of points in this outline
          *
          * @return the number of points
          */
         size_t PointCount();

         /**
          * Get the count of contours in this outline
          *
          * @return the number of contours
          */
         size_t ContourCount() const { return ftContourCount;}

         /**
          * Return a contour at index
          *
          * @return the number of contours
          */
          const FTContour* const Contour( unsigned int index) const;

         /**
          * Get the number of points in a specific contour in this outline
          *
          * @param c     The contour index
          * @return      the number of points in contour[c]
          */
         size_t ContourSize( int c) const { return contourList[c]->PointCount();}

         /**
          * Get the flag for the tesselation rule for this outline
          *
          * @return The contour flag
          */
         int ContourFlag() const { return contourFlag;}

     private:
         /**
          * Process the freetype outline data into contours of points
          */
         void ProcessContours();

         /**
          * The list of contours in the glyph
          */
         FTContour** contourList;

         /**
          * A Mesh for tesselations
          */
         FTMesh* mesh;

         /**
          * The number of contours reported by Freetype
          */
         short ftContourCount;

         /**
          * A flag indicating the tesselation rule for the glyph
          */
         int contourFlag;

         /**
          * A Freetype outline
          */
         FT_Outline outline;
 };


 #endif  //  __FTVectoriser__
	#ifndef __FTVectoriser__
	#define __FTVectoriser__


	#include "FTContour.h"
	#include "FTList.h"
	#include "FTPoint.h"
	#include "FTVector.h"
	#include "FTGL.h"


	#ifndef CALLBACK
	#define CALLBACK
	#endif


	/**
	* FTTesselation captures points that are output by OpenGL's gluTesselator.
	*/
	class FTGL_EXPORT FTTesselation
	{
	public:
	/**
	* Default constructor
	*/
	FTTesselation( GLenum m)
	: meshType(m)
	{
	pointList.reserve( 128);
	}

	/**
	* Destructor
	*/
	~FTTesselation()
	{
	pointList.clear();
	}

	/**
	* Add a point to the mesh.
	*/
	void AddPoint( const FTGL_DOUBLE x, const FTGL_DOUBLE y, const FTGL_DOUBLE z)
	{
	pointList.push_back( FTPoint( x, y, z));
	}

	/**
	* The number of points in this mesh
	*/
	size_t PointCount() const { return pointList.size();}

	/**
	*
	*/
	const FTPoint& Point( unsigned int index) const { return pointList[index];}

	/**
	* Return the OpenGL polygon type.
	*/
	GLenum PolygonType() const { return meshType;}

	private:
	/**
	* Points generated by gluTesselator.
	*/
	typedef FTVector<FTPoint> PointVector;
	PointVector pointList;

	/**
	* OpenGL primitive type from gluTesselator.
	*/
	GLenum meshType;
	};


	/**
	* FTMesh is a container of FTTesselation's that make up a polygon glyph
	*/
	class FTGL_EXPORT FTMesh
	{
	typedef FTVector<FTTesselation*> TesselationVector;
	typedef FTList<FTPoint> PointList;

	public:
	/**
	* Default constructor
	*/
	FTMesh();

	/**
	* Destructor
	*/
	~FTMesh();

	/**
	* Add a point to the mesh
	*/
	void AddPoint( const FTGL_DOUBLE x, const FTGL_DOUBLE y, const FTGL_DOUBLE z);

	/**
	* Create a combine point for the gluTesselator
	*/
	const FTGL_DOUBLE* Combine( const FTGL_DOUBLE x, const FTGL_DOUBLE y, const FTGL_DOUBLE z);

	/**
	* Begin a new polygon
	*/
	void Begin( GLenum meshType);

	/**
	* End a polygon
	*/
	void End();

	/**
	* Record a gluTesselation error
	*/
	void Error( GLenum e) { err = e;}

	/**
	* The number of tesselations in the mesh
	*/
	unsigned int TesselationCount() const { return tesselationList.size();}

	/**
	* Get a tesselation by index
	*/
	const FTTesselation* const Tesselation( unsigned int index) const;

	/**
	* Return the temporary point list. For testing only.
	*/
	const PointList& TempPointList() const { return tempPointList;}

	/**
	* Get the GL ERROR returned by the glu tesselator
	*/
	GLenum Error() const { return err;}

	private:
	/**
	* The current sub mesh that we are constructing.
	*/
	FTTesselation* currentTesselation;

	/**
	* Holds each sub mesh that comprises this glyph.
	*/
	TesselationVector tesselationList;

	/**
	* Holds extra points created by gluTesselator. See ftglCombine.
	*/
	PointList tempPointList;

	/**
	* GL ERROR returned by the glu tesselator
	*/
	GLenum err;

	};

	const FTGL_DOUBLE FTGL_FRONT_FACING = 1.0;
	const FTGL_DOUBLE FTGL_BACK_FACING = -1.0;

	/**
	* FTVectoriser class is a helper class that converts font outlines into
	* point data.
	*
	* @see FTExtrdGlyph
	* @see FTOutlineGlyph
	* @see FTPolyGlyph
	* @see FTContour
	* @see FTPoint
	*
	*/
	class FTGL_EXPORT FTVectoriser
	{
	public:
	/**
	* Constructor
	*
	* @param glyph The freetype glyph to be processed
	*/
	FTVectoriser( const FT_GlyphSlot glyph);

	/**
	* Destructor
	*/
	virtual ~FTVectoriser();

	/**
	* Build an FTMesh from the vector outline data.
	*
	* @param zNormal The direction of the z axis of the normal
	* for this mesh
	*/
	void MakeMesh( FTGL_DOUBLE zNormal = FTGL_FRONT_FACING);

	/**
	* Get the current mesh.
	*/
	const FTMesh* const GetMesh() const { return mesh;}

	/**
	* Get the total count of points in this outline
	*
	* @return the number of points
	*/
	size_t PointCount();

	/**
	* Get the count of contours in this outline
	*
	* @return the number of contours
	*/
	size_t ContourCount() const { return ftContourCount;}

	/**
	* Return a contour at index
	*
	* @return the number of contours
	*/
	const FTContour* const Contour( unsigned int index) const;

	/**
	* Get the number of points in a specific contour in this outline
	*
	* @param c The contour index
	* @return the number of points in contour[c]
	*/
	size_t ContourSize( int c) const { return contourList[c]->PointCount();}

	/**
	* Get the flag for the tesselation rule for this outline
	*
	* @return The contour flag
	*/
	int ContourFlag() const { return contourFlag;}

	private:
	/**
	* Process the freetype outline data into contours of points
	*/
	void ProcessContours();

	/**
	* The list of contours in the glyph
	*/
	FTContour** contourList;

	/**
	* A Mesh for tesselations
	*/
	FTMesh* mesh;

	/**
	* The number of contours reported by Freetype
	*/
	short ftContourCount;

	/**
	* A flag indicating the tesselation rule for the glyph
	*/
	int contourFlag;

	/**
	* A Freetype outline
	*/
	FT_Outline outline;
	};


	#endif // __FTVectoriser__