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/*
* FTGL - OpenGL font library
*
* Copyright (c) 2001-2004 Henry Maddocks <ftgl@opengl.geek.nz>
* Copyright (c) 2008 Éric Beets <ericbeets@free.fr>
* Copyright (c) 2008 Sam Hocevar <sam@zoy.org>
*
* Permission is hereby granted, free of charge, to any person obtaining
* a copy of this software and associated documentation files (the
* "Software"), to deal in the Software without restriction, including
* without limitation the rights to use, copy, modify, merge, publish,
* distribute, sublicense, and/or sell copies of the Software, and to
* permit persons to whom the Software is furnished to do so, subject to
* the following conditions:
*
* The above copyright notice and this permission notice shall be
* included in all copies or substantial portions of the Software.
*
* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND,
* EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
* MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT.
* IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY
* CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT,
* TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE
* SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.
*/
#include "config.h"
#include "FTInternals.h"
#include "FTVectoriser.h"
#ifndef CALLBACK
#define CALLBACK
#endif
#if defined __APPLE_CC__ && __APPLE_CC__ < 5465
typedef GLvoid (*GLUTesselatorFunction) (...);
#elif defined WIN32 && !defined __CYGWIN__
typedef GLvoid (CALLBACK *GLUTesselatorFunction) ();
#else
typedef GLvoid (*GLUTesselatorFunction) ();
#endif
void CALLBACK ftglError(GLenum errCode, FTMesh* mesh)
{
mesh->Error(errCode);
}
void CALLBACK ftglVertex(void* data, FTMesh* mesh)
{
FTGL_DOUBLE* vertex = static_cast<FTGL_DOUBLE*>(data);
mesh->AddPoint(vertex[0], vertex[1], vertex[2]);
}
void CALLBACK ftglCombine(FTGL_DOUBLE coords[3], void* vertex_data[4], GLfloat weight[4], void** outData, FTMesh* mesh)
{
const FTGL_DOUBLE* vertex = static_cast<const FTGL_DOUBLE*>(coords);
*outData = const_cast<FTGL_DOUBLE*>(mesh->Combine(vertex[0], vertex[1], vertex[2]));
}
void CALLBACK ftglBegin(GLenum type, FTMesh* mesh)
{
mesh->Begin(type);
}
void CALLBACK ftglEnd(FTMesh* mesh)
{
mesh->End();
}
FTMesh::FTMesh()
: currentTesselation(0),
err(0)
{
tesselationList.reserve(16);
}
FTMesh::~FTMesh()
{
for(size_t t = 0; t < tesselationList.size(); ++t)
{
delete tesselationList[t];
}
tesselationList.clear();
}
void FTMesh::AddPoint(const FTGL_DOUBLE x, const FTGL_DOUBLE y, const FTGL_DOUBLE z)
{
currentTesselation->AddPoint(x, y, z);
}
const FTGL_DOUBLE* FTMesh::Combine(const FTGL_DOUBLE x, const FTGL_DOUBLE y, const FTGL_DOUBLE z)
{
tempPointList.push_back(FTPoint(x, y,z));
return static_cast<const FTGL_DOUBLE*>(tempPointList.back());
}
void FTMesh::Begin(GLenum meshType)
{
currentTesselation = new FTTesselation(meshType);
}
void FTMesh::End()
{
tesselationList.push_back(currentTesselation);
}
const FTTesselation* const FTMesh::Tesselation(size_t index) const
{
return (index < tesselationList.size()) ? tesselationList[index] : NULL;
}
FTVectoriser::FTVectoriser(const FT_GlyphSlot glyph)
: contourList(0),
mesh(0),
ftContourCount(0),
contourFlag(0)
{
if(glyph)
{
outline = glyph->outline;
ftContourCount = outline.n_contours;
contourList = 0;
contourFlag = outline.flags;
ProcessContours();
}
}
FTVectoriser::~FTVectoriser()
{
for(size_t c = 0; c < ContourCount(); ++c)
{
delete contourList[c];
}
delete [] contourList;
delete mesh;
}
void FTVectoriser::ProcessContours()
{
short contourLength = 0;
short startIndex = 0;
short endIndex = 0;
contourList = new FTContour*[ftContourCount];
for(int i = 0; i < ftContourCount; ++i)
{
FT_Vector* pointList = &outline.points[startIndex];
char* tagList = &outline.tags[startIndex];
endIndex = outline.contours[i];
contourLength = (endIndex - startIndex) + 1;
FTContour* contour = new FTContour(pointList, tagList, contourLength);
contourList[i] = contour;
startIndex = endIndex + 1;
}
// Compute each contour's parity. FIXME: see if FT_Outline_Get_Orientation
// can do it for us.
for(int i = 0; i < ftContourCount; i++)
{
FTContour *c1 = contourList[i];
// 1. Find the leftmost point.
FTPoint leftmost(65536.0, 0.0);
for(size_t n = 0; n < c1->PointCount(); n++)
{
FTPoint p = c1->Point(n);
if(p.X() < leftmost.X())
{
leftmost = p;
}
}
// 2. Count how many other contours we cross when going further to
// the left.
int parity = 0;
for(int j = 0; j < ftContourCount; j++)
{
if(j == i)
{
continue;
}
FTContour *c2 = contourList[j];
for(size_t n = 0; n < c2->PointCount(); n++)
{
FTPoint p1 = c2->Point(n);
FTPoint p2 = c2->Point((n + 1) % c2->PointCount());
/* FIXME: combinations of >= > <= and < do not seem stable */
if((p1.Y() < leftmost.Y() && p2.Y() < leftmost.Y())
|| (p1.Y() >= leftmost.Y() && p2.Y() >= leftmost.Y())
|| (p1.X() > leftmost.X() && p2.X() > leftmost.X()))
{
continue;
}
else if(p1.X() < leftmost.X() && p2.X() < leftmost.X())
{
parity++;
}
else
{
FTPoint a = p1 - leftmost;
FTPoint b = p2 - leftmost;
if(b.X() * a.Y() > b.Y() * a.X())
{
parity++;
}
}
}
}
// 3. Make sure the glyph has the proper parity.
c1->SetParity(parity);
}
}
size_t FTVectoriser::PointCount()
{
size_t s = 0;
for(size_t c = 0; c < ContourCount(); ++c)
{
s += contourList[c]->PointCount();
}
return s;
}
const FTContour* const FTVectoriser::Contour(size_t index) const
{
return (index < ContourCount()) ? contourList[index] : NULL;
}
void FTVectoriser::MakeMesh(FTGL_DOUBLE zNormal, int outsetType, float outsetSize)
{
if(mesh)
{
delete mesh;
}
mesh = new FTMesh;
GLUtesselator* tobj = gluNewTess();
gluTessCallback(tobj, GLU_TESS_BEGIN_DATA, (GLUTesselatorFunction)ftglBegin);
gluTessCallback(tobj, GLU_TESS_VERTEX_DATA, (GLUTesselatorFunction)ftglVertex);
gluTessCallback(tobj, GLU_TESS_COMBINE_DATA, (GLUTesselatorFunction)ftglCombine);
gluTessCallback(tobj, GLU_TESS_END_DATA, (GLUTesselatorFunction)ftglEnd);
gluTessCallback(tobj, GLU_TESS_ERROR_DATA, (GLUTesselatorFunction)ftglError);
if(contourFlag & ft_outline_even_odd_fill) // ft_outline_reverse_fill
{
gluTessProperty(tobj, GLU_TESS_WINDING_RULE, GLU_TESS_WINDING_ODD);
}
else
{
gluTessProperty(tobj, GLU_TESS_WINDING_RULE, GLU_TESS_WINDING_NONZERO);
}
gluTessProperty(tobj, GLU_TESS_TOLERANCE, 0);
gluTessNormal(tobj, 0.0f, 0.0f, zNormal);
gluTessBeginPolygon(tobj, mesh);
for(size_t c = 0; c < ContourCount(); ++c)
{
/* Build the */
switch(outsetType)
{
case 1 : contourList[c]->buildFrontOutset(outsetSize); break;
case 2 : contourList[c]->buildBackOutset(outsetSize); break;
}
const FTContour* contour = contourList[c];
gluTessBeginContour(tobj);
for(size_t p = 0; p < contour->PointCount(); ++p)
{
const FTGL_DOUBLE* d;
switch(outsetType)
{
case 1: d = contour->FrontPoint(p); break;
case 2: d = contour->BackPoint(p); break;
case 0: default: d = contour->Point(p); break;
}
// XXX: gluTessVertex doesn't modify the data but does not
// specify "const" in its prototype, so we cannot cast to
// a const type.
gluTessVertex(tobj, (GLdouble *)d, (GLvoid *)d);
}
gluTessEndContour(tobj);
}
gluTessEndPolygon(tobj);
gluDeleteTess(tobj);
}
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