df = (f1 -f2*2 + f3)*(1/2.0f);
}
-// WARNING -- totaly broken
+// WARNING -- totally broken
template < class T >
inline void FivePointddt(T &df, const T &f1, const T &f2, const T &f3, int bias)
{
Lpj += mult; //add into the summation
- //since the ks follow the exact patern we need for the divisor (use that too)
+ //since the ks follow the exact pattern we need for the divisor (use that too)
div *= tj - t[k];
}
}
void GetSimpleDerivatives(const std::vector<synfig::Point> &f, int left, int right,
std::vector<synfig::Point> &df, int outleft,
- const std::vector<synfig::Real> &di)
+ const std::vector<synfig::Real> &/*di*/)
{
int i1,i2,i;
int offset = 2; //df = 1/2 (f[i+o]-f[i-o])
typedef synfigapp::BLineConverter::cpindex cpindex;
//has the index data and the tangent scale data (relevant as it may be)
-int tesselate_curves(const std::vector<cpindex> &inds, const std::vector<Point> &f, const std::vector<synfig::Vector> &df, std::vector<Point> &work)
+int tessellate_curves(const std::vector<cpindex> &inds, const std::vector<Point> &f, const std::vector<synfig::Vector> &df, std::vector<Point> &work)
{
if(inds.size() < 2)
return 0;
j2 = j++;
for(; j != end; j2 = j++)
{
- //if this curve has invalid error (in j) then retesselate its work points (requires reparametrization, etc.)
+ //if this curve has invalid error (in j) then retessellate its work points (requires reparametrization, etc.)
if(j->error < 0)
{
//get the stepsize etc. for the number of points in here
brk.push_back(i);
- //postprocess for breaks too close to eachother
+ //postprocess for breaks too close to each other
Real d = 0;
Point p = f[brk.front()];
//preproceval += timer();
//numpre++;
- work.resize(size*2-1); //guarantee that all points will be tesselated correctly (one point inbetween every 2 adjacent points)
+ work.resize(size*2-1); //guarantee that all points will be tessellated correctly (one point in between every 2 adjacent points)
//if size of work is size*2-1, the step size should be 1/(size*2 - 2)
//Real step = 1/(Real)(size*2 - 1);
//while there are still enough points between us, and the error is too high subdivide (and invalidate neighbors that share tangents)
while(!done)
{
- //tesselate all curves with invalid error values
+ //tessellate all curves with invalid error values
work[0] = f[i0];
//timer.reset();
- /*numtess += */tesselate_curves(curind,f,df,work);
+ /*numtess += */tessellate_curves(curind,f,df,work);
//tesseval += timer();
//now get all error values
//timer.reset();
for(i = 1; i < (int)curind.size(); ++i)
{
- if(curind[i].error < 0) //must have been retesselated, so now recalculate error value
+ if(curind[i].error < 0) //must have been retessellated, so now recalculate error value
{
//evaluate error from points (starting at current index)
int size = curind[i].curind - curind[i-1].curind + 1;
{
synfig::info("Holy crap %d-%d error %f",curind[i-1].curind,curind[i].curind,curind[i].error);
curind[i].error = -1;
- numtess += tesselate_curves(curind,f,df,work);
+ numtess += tessellate_curves(curind,f,df,work);
curind[i].error = CurveError(&f[curind[i-1].curind], size,
work,0,work.size());//(curind[i-1].curind - i0)*2,(curind[i].curind - i0)*2+1);
}*/
"\tDistance Calculation: %f\n"
" Algorithm: (numtimes,totaltime)\n"
"\tPreprocess step: (%d,%f)\n"
- "\tTesselation step: (%d,%f)\n"
+ "\tTessellation step: (%d,%f)\n"
"\tError step: (%d,%f)\n"
"\tSplit step: (%d,%f)\n"
" Num Input: %d, Num Output: %d\n"