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Remove spaces and tabs at end of lines.
[synfig.git]
/
synfig-studio
/
trunk
/
src
/
synfigapp
/
blineconvert.cpp
diff --git
a/synfig-studio/trunk/src/synfigapp/blineconvert.cpp
b/synfig-studio/trunk/src/synfigapp/blineconvert.cpp
index
85ddb64
..
42cb57a
100644
(file)
--- a/
synfig-studio/trunk/src/synfigapp/blineconvert.cpp
+++ b/
synfig-studio/trunk/src/synfigapp/blineconvert.cpp
@@
-93,7
+93,7
@@
inline void ThreePointdt(T &df, const T &f1, const T &f2, const T &f3, int bias)
// // so only one algorithm needed for left, middle, or right
// df = (f1 -f2*2 + f3)*(1/2.0f);
// }
// // so only one algorithm needed for left, middle, or right
// df = (f1 -f2*2 + f3)*(1/2.0f);
// }
-//
+//
// // WARNING -- totally broken
// template < class T >
// inline void FivePointddt(T &df, const T &f1, const T &f2, const T &f3, int bias)
// // WARNING -- totally broken
// template < class T >
// inline void FivePointddt(T &df, const T &f1, const T &f2, const T &f3, int bias)
@@
-114,7
+114,7
@@
inline void ThreePointdt(T &df, const T &f1, const T &f2, const T &f3, int bias)
// }*/
// //side ones don't work, use 3 point
// }
// }*/
// //side ones don't work, use 3 point
// }
-//
+//
// //implement an arbitrary derivative
// //dumb algorithm
// template < class T >
// //implement an arbitrary derivative
// //dumb algorithm
// template < class T >
@@
-122,22
+122,22
@@
inline void ThreePointdt(T &df, const T &f1, const T &f2, const T &f3, int bias)
// {
// /*
// Lj(x) = PI_i!=j (x - xi) / PI_i!=j (xj - xi)
// {
// /*
// Lj(x) = PI_i!=j (x - xi) / PI_i!=j (xj - xi)
-//
+//
// so Lj'(x) = SUM_k PI_i!=j|k (x - xi) / PI_i!=j (xj - xi)
// */
// so Lj'(x) = SUM_k PI_i!=j|k (x - xi) / PI_i!=j (xj - xi)
// */
-//
+//
// unsigned int i,j,k,i0,i1;
// unsigned int i,j,k,i0,i1;
-//
+//
// Real Lpj,mult,div,tj;
// Real tval = t[indexval];
// Real Lpj,mult,div,tj;
// Real tval = t[indexval];
-//
+//
// //sum k
// for(j=0;j<npoints;++j)
// {
// Lpj = 0;
// div = 1;
// tj = t[j];
// //sum k
// for(j=0;j<npoints;++j)
// {
// Lpj = 0;
// div = 1;
// tj = t[j];
-//
+//
// for(k=0;k<npoints;++k)
// {
// if(k != j) //because there is no summand for k == j, since that term is missing from the original equation
// for(k=0;k<npoints;++k)
// {
// if(k != j) //because there is no summand for k == j, since that term is missing from the original equation
@@
-150,17
+150,17
@@
inline void ThreePointdt(T &df, const T &f1, const T &f2, const T &f3, int bias)
// mult *= tval - t[i];
// }
// }
// mult *= tval - t[i];
// }
// }
-//
+//
// Lpj += mult; //add into the summation
// Lpj += mult; //add into the summation
-//
+//
// //since the ks follow the exact pattern we need for the divisor (use that too)
// div *= tj - t[k];
// }
// }
// //since the ks follow the exact pattern we need for the divisor (use that too)
// div *= tj - t[k];
// }
// }
-//
+//
// //get the actual coefficient
// Lpj /= div;
// //get the actual coefficient
// Lpj /= div;
-//
+//
// //add it in to the equation
// df += f[j]*Lpj;
// }
// //add it in to the equation
// df += f[j]*Lpj;
// }
@@
-619,16
+619,16
@@
synfigapp::BLineConverter::operator()(std::list<synfig::BLinePoint> &blinepoint
// Wondering whether the modification of the deriv vector
// using a char* pointer and pointer arithmetric was safe,
// I looked it up...
// Wondering whether the modification of the deriv vector
// using a char* pointer and pointer arithmetric was safe,
// I looked it up...
- //
+ //
// http://www.open-std.org/jtc1/sc22/wg21/docs/papers/2007/n2369.pdf tells me:
// http://www.open-std.org/jtc1/sc22/wg21/docs/papers/2007/n2369.pdf tells me:
- //
+ //
// 23.2.5 Class template vector [vector]
// 23.2.5 Class template vector [vector]
- //
+ //
// [...] The elements of a vector are stored contiguously,
// meaning that if v is a vector<T,Allocator> where T is
// some type other than bool, then it obeys the identity
// &v[n] == &v[0] + n for all 0 <= n < v.size().
// [...] The elements of a vector are stored contiguously,
// meaning that if v is a vector<T,Allocator> where T is
// some type other than bool, then it obeys the identity
// &v[n] == &v[0] + n for all 0 <= n < v.size().
- //
+ //
GetFirstDerivatives(ftemp,0,size,(char*)&deriv[0],sizeof(deriv[0]));
//GetSimpleDerivatives(ftemp,0,size,deriv,0,cum_dist);
GetFirstDerivatives(ftemp,0,size,(char*)&deriv[0],sizeof(deriv[0]));
//GetSimpleDerivatives(ftemp,0,size,deriv,0,cum_dist);