src/WinLibs/FTGL/src/FTExtrdGlyph.cpp - vendor/opensource/projectM - Git at Google

 #include <iostream>

 #include    <math.h>

 #include    "FTExtrdGlyph.h"
 #include    "FTVectoriser.h"


 FTExtrdGlyph::FTExtrdGlyph( FT_GlyphSlot glyph, float depth, bool useDisplayList)
 :   FTGlyph( glyph),
     glList(0)
 {
     bBox.SetDepth( -depth);

     if( ft_glyph_format_outline != glyph->format)
     {
         err = 0x14; // Invalid_Outline
         return;
     }

     FTVectoriser vectoriser( glyph);
     if( ( vectoriser.ContourCount() < 1) || ( vectoriser.PointCount() < 3))
     {
         return;
     }

     unsigned int tesselationIndex;

     if(useDisplayList)
     {
         glList = glGenLists(1);
         glNewList( glList, GL_COMPILE);
     }

     vectoriser.MakeMesh( 1.0);
     glNormal3d(0.0, 0.0, 1.0);

     unsigned int horizontalTextureScale = glyph->face->size->metrics.x_ppem * 64;
     unsigned int verticalTextureScale = glyph->face->size->metrics.y_ppem * 64;

     const FTMesh* mesh = vectoriser.GetMesh();
     for( tesselationIndex = 0; tesselationIndex < mesh->TesselationCount(); ++tesselationIndex)
     {
         const FTTesselation* subMesh = mesh->Tesselation( tesselationIndex);
         unsigned int polyonType = subMesh->PolygonType();

         glBegin( polyonType);
             for( unsigned int pointIndex = 0; pointIndex < subMesh->PointCount(); ++pointIndex)
             {
                 FTPoint point = subMesh->Point(pointIndex);

                 glTexCoord2f( point.X() / horizontalTextureScale,
                               point.Y() / verticalTextureScale);

                 glVertex3f( point.X() / 64.0f,
                             point.Y() / 64.0f,
                             0.0f);
             }
         glEnd();
     }

     vectoriser.MakeMesh( -1.0);
     glNormal3d(0.0, 0.0, -1.0);

     mesh = vectoriser.GetMesh();
     for( tesselationIndex = 0; tesselationIndex < mesh->TesselationCount(); ++tesselationIndex)
     {
         const FTTesselation* subMesh = mesh->Tesselation( tesselationIndex);
         unsigned int polyonType = subMesh->PolygonType();

         glBegin( polyonType);
             for( unsigned int pointIndex = 0; pointIndex < subMesh->PointCount(); ++pointIndex)
             {
                 FTPoint point = subMesh->Point(pointIndex);

                 glTexCoord2f( subMesh->Point(pointIndex).X() / horizontalTextureScale,
                               subMesh->Point(pointIndex).Y() / verticalTextureScale);

                 glVertex3f( subMesh->Point( pointIndex).X() / 64.0f,
                             subMesh->Point( pointIndex).Y() / 64.0f,
                             -depth);
             }
         glEnd();
     }

     int contourFlag = vectoriser.ContourFlag();

     for( size_t c = 0; c < vectoriser.ContourCount(); ++c)
     {
         const FTContour* contour = vectoriser.Contour(c);
         unsigned int numberOfPoints = contour->PointCount();

         glBegin( GL_QUAD_STRIP);
             for( unsigned int j = 0; j <= numberOfPoints; ++j)
             {
                 unsigned int pointIndex = ( j == numberOfPoints) ? 0 : j;
                 unsigned int nextPointIndex = ( pointIndex == numberOfPoints - 1) ? 0 : pointIndex + 1;

                 FTPoint point = contour->Point(pointIndex);

                 FTPoint normal = GetNormal( point, contour->Point(nextPointIndex));
                 if(normal != FTPoint( 0.0f, 0.0f, 0.0f))
                 {
                     glNormal3dv(static_cast<const FTGL_DOUBLE*>(normal));
                 }

                 if( contourFlag & ft_outline_reverse_fill)
                 {
                     glTexCoord2f( point.X() / horizontalTextureScale,
                                   point.X() / verticalTextureScale);

                     glVertex3f( point.X() / 64.0f, point.Y() / 64.0f, 0.0f);
                     glVertex3f( point.X() / 64.0f, point.Y() / 64.0f, -depth);
                 }
                 else
                 {
                     glTexCoord2f( point.X() / horizontalTextureScale,
                                   point.Y() / verticalTextureScale);

                     glVertex3f( point.X() / 64.0f, point.Y() / 64.0f, -depth);
                     glVertex3f( point.X() / 64.0f, point.Y() / 64.0f, 0.0f);
                 }
             }
         glEnd();
     }

     if(useDisplayList)
     {
         glEndList();
     }
 }


 FTExtrdGlyph::~FTExtrdGlyph()
 {
     glDeleteLists( glList, 1);
 }


 const FTPoint& FTExtrdGlyph::Render( const FTPoint& pen)
 {
     glTranslatef( pen.X(), pen.Y(), 0);

     if( glList)
     {
         glCallList( glList);
     }

     return advance;
 }


 FTPoint FTExtrdGlyph::GetNormal( const FTPoint &a, const FTPoint &b)
 {
     float vectorX = a.X() - b.X();
     float vectorY = a.Y() - b.Y();

     float length = sqrt( vectorX * vectorX + vectorY * vectorY );

     if( length > 0.01f)
     {
         length = 1 / length;
     }
     else
     {
         length = 0.0f;
     }

     return FTPoint( -vectorY * length,
                      vectorX * length,
                      0.0f);
 }
	#include <iostream>

	#include <math.h>

	#include "FTExtrdGlyph.h"
	#include "FTVectoriser.h"


	FTExtrdGlyph::FTExtrdGlyph( FT_GlyphSlot glyph, float depth, bool useDisplayList)
	: FTGlyph( glyph),
	glList(0)
	{
	bBox.SetDepth( -depth);

	if( ft_glyph_format_outline != glyph->format)
	{
	err = 0x14; // Invalid_Outline
	return;
	}

	FTVectoriser vectoriser( glyph);
	if( ( vectoriser.ContourCount() < 1) \|\| ( vectoriser.PointCount() < 3))
	{
	return;
	}

	unsigned int tesselationIndex;

	if(useDisplayList)
	{
	glList = glGenLists(1);
	glNewList( glList, GL_COMPILE);
	}

	vectoriser.MakeMesh( 1.0);
	glNormal3d(0.0, 0.0, 1.0);

	unsigned int horizontalTextureScale = glyph->face->size->metrics.x_ppem * 64;
	unsigned int verticalTextureScale = glyph->face->size->metrics.y_ppem * 64;

	const FTMesh* mesh = vectoriser.GetMesh();
	for( tesselationIndex = 0; tesselationIndex < mesh->TesselationCount(); ++tesselationIndex)
	{
	const FTTesselation* subMesh = mesh->Tesselation( tesselationIndex);
	unsigned int polyonType = subMesh->PolygonType();

	glBegin( polyonType);
	for( unsigned int pointIndex = 0; pointIndex < subMesh->PointCount(); ++pointIndex)
	{
	FTPoint point = subMesh->Point(pointIndex);

	glTexCoord2f( point.X() / horizontalTextureScale,
	point.Y() / verticalTextureScale);

	glVertex3f( point.X() / 64.0f,
	point.Y() / 64.0f,
	0.0f);
	}
	glEnd();
	}

	vectoriser.MakeMesh( -1.0);
	glNormal3d(0.0, 0.0, -1.0);

	mesh = vectoriser.GetMesh();
	for( tesselationIndex = 0; tesselationIndex < mesh->TesselationCount(); ++tesselationIndex)
	{
	const FTTesselation* subMesh = mesh->Tesselation( tesselationIndex);
	unsigned int polyonType = subMesh->PolygonType();

	glBegin( polyonType);
	for( unsigned int pointIndex = 0; pointIndex < subMesh->PointCount(); ++pointIndex)
	{
	FTPoint point = subMesh->Point(pointIndex);

	glTexCoord2f( subMesh->Point(pointIndex).X() / horizontalTextureScale,
	subMesh->Point(pointIndex).Y() / verticalTextureScale);

	glVertex3f( subMesh->Point( pointIndex).X() / 64.0f,
	subMesh->Point( pointIndex).Y() / 64.0f,
	-depth);
	}
	glEnd();
	}

	int contourFlag = vectoriser.ContourFlag();

	for( size_t c = 0; c < vectoriser.ContourCount(); ++c)
	{
	const FTContour* contour = vectoriser.Contour(c);
	unsigned int numberOfPoints = contour->PointCount();

	glBegin( GL_QUAD_STRIP);
	for( unsigned int j = 0; j <= numberOfPoints; ++j)
	{
	unsigned int pointIndex = ( j == numberOfPoints) ? 0 : j;
	unsigned int nextPointIndex = ( pointIndex == numberOfPoints - 1) ? 0 : pointIndex + 1;

	FTPoint point = contour->Point(pointIndex);

	FTPoint normal = GetNormal( point, contour->Point(nextPointIndex));
	if(normal != FTPoint( 0.0f, 0.0f, 0.0f))
	{
	glNormal3dv(static_cast<const FTGL_DOUBLE*>(normal));
	}

	if( contourFlag & ft_outline_reverse_fill)
	{
	glTexCoord2f( point.X() / horizontalTextureScale,
	point.X() / verticalTextureScale);

	glVertex3f( point.X() / 64.0f, point.Y() / 64.0f, 0.0f);
	glVertex3f( point.X() / 64.0f, point.Y() / 64.0f, -depth);
	}
	else
	{
	glTexCoord2f( point.X() / horizontalTextureScale,
	point.Y() / verticalTextureScale);

	glVertex3f( point.X() / 64.0f, point.Y() / 64.0f, -depth);
	glVertex3f( point.X() / 64.0f, point.Y() / 64.0f, 0.0f);
	}
	}
	glEnd();
	}

	if(useDisplayList)
	{
	glEndList();
	}
	}


	FTExtrdGlyph::~FTExtrdGlyph()
	{
	glDeleteLists( glList, 1);
	}


	const FTPoint& FTExtrdGlyph::Render( const FTPoint& pen)
	{
	glTranslatef( pen.X(), pen.Y(), 0);

	if( glList)
	{
	glCallList( glList);
	}

	return advance;
	}


	FTPoint FTExtrdGlyph::GetNormal( const FTPoint &a, const FTPoint &b)
	{
	float vectorX = a.X() - b.X();
	float vectorY = a.Y() - b.Y();

	float length = sqrt( vectorX * vectorX + vectorY * vectorY );

	if( length > 0.01f)
	{
	length = 1 / length;
	}
	else
	{
	length = 0.0f;
	}

	return FTPoint( -vectorY * length,
	vectorX * length,
	0.0f);
	}