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Fix Circular_kernel_3 demo (CGAL_PI)

This commit is contained in:
Andreas Fabri 2018-05-18 13:55:04 +01:00
parent d617e33253
commit 990a682798
1 changed files with 32 additions and 32 deletions
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64
Circular_kernel_3/demo/Circular_kernel_3/Viewer.cpp
View File

@ -316,8 +316,8 @@ void Viewer::compute_elements()
P = rings*M_PI/180.0;
T = t*M_PI/180.0;
P = rings*CGAL_PI/180.0;
T = t*CGAL_PI/180.0;
x[1] = sin(P) * cos(T) ;
y[1] = sin(P) * sin(T) ;
z[1] = cos(P);
@ -331,8 +331,8 @@ void Viewer::compute_elements()
normals.push_back(z[1]);
//
P = rings*M_PI/180.0;
T = (t+sectors)*M_PI/180.0;
P = rings*CGAL_PI/180.0;
T = (t+sectors)*CGAL_PI/180.0;
x[2] = sin(P) * cos(T) ;
y[2] = sin(P) * sin(T) ;
z[2] = cos(P);
@ -351,8 +351,8 @@ void Viewer::compute_elements()
for(int t=0; t<360; t+=sectors)
{
//A
P = p*M_PI/180.0;
T = t*M_PI/180.0;
P = p*CGAL_PI/180.0;
T = t*CGAL_PI/180.0;
x[0] = sin(P) * cos(T) ;
y[0] = sin(P) * sin(T) ;
z[0] = cos(P);
@ -367,8 +367,8 @@ void Viewer::compute_elements()
normals.push_back(z[0]);
//B
P = (p+rings)*M_PI/180.0;
T = t*M_PI/180.0;
P = (p+rings)*CGAL_PI/180.0;
T = t*CGAL_PI/180.0;
x[1] = sin(P) * cos(T) ;
y[1] = sin(P) * sin(T) ;
z[1] = cos(P);
@ -382,8 +382,8 @@ void Viewer::compute_elements()
normals.push_back(z[1]);
//C
P = p*M_PI/180.0;
T = (t+sectors)*M_PI/180.0;
P = p*CGAL_PI/180.0;
T = (t+sectors)*CGAL_PI/180.0;
x[2] = sin(P) * cos(T) ;
y[2] = sin(P) * sin(T) ;
z[2] = cos(P);
@ -396,8 +396,8 @@ void Viewer::compute_elements()
normals.push_back(y[2]);
normals.push_back(z[2]);
//D
P = (p+rings)*M_PI/180.0;
T = (t+sectors)*M_PI/180.0;
P = (p+rings)*CGAL_PI/180.0;
T = (t+sectors)*CGAL_PI/180.0;
x[3] = sin(P) * cos(T) ;
y[3] = sin(P) * sin(T) ;
z[3] = cos(P);
@ -446,8 +446,8 @@ void Viewer::compute_elements()
normals.push_back(-1);
P = (180-rings)*M_PI/180.0;
T = t*M_PI/180.0;
P = (180-rings)*CGAL_PI/180.0;
T = t*CGAL_PI/180.0;
x[1] = sin(P) * cos(T) ;
y[1] = sin(P) * sin(T) ;
z[1] = cos(P);
@ -461,8 +461,8 @@ void Viewer::compute_elements()
normals.push_back(z[1]);
P = (180-rings)*M_PI/180.0;
T = (t+sectors)*M_PI/180.0;
P = (180-rings)*CGAL_PI/180.0;
T = (t+sectors)*CGAL_PI/180.0;
x[2] = sin(P) * cos(T) ;
y[2] = sin(P) * sin(T) ;
z[2] = cos(P);
@ -501,8 +501,8 @@ void Viewer::compute_elements()
P = rings*M_PI/180.0;
T = t*M_PI/180.0;
P = rings*CGAL_PI/180.0;
T = t*CGAL_PI/180.0;
x[1] = sin(P) * cos(T) ;
y[1] = sin(P) * sin(T) ;
z[1] = cos(P);
@ -516,8 +516,8 @@ void Viewer::compute_elements()
normals_inter.push_back(z[1]);
//
P = rings*M_PI/180.0;
T = (t+sectors)*M_PI/180.0;
P = rings*CGAL_PI/180.0;
T = (t+sectors)*CGAL_PI/180.0;
x[2] = sin(P) * cos(T) ;
y[2] = sin(P) * sin(T) ;
z[2] = cos(P);
@ -536,8 +536,8 @@ void Viewer::compute_elements()
for(int t=0; t<360; t+=sectors)
{
//A
P = p*M_PI/180.0;
T = t*M_PI/180.0;
P = p*CGAL_PI/180.0;
T = t*CGAL_PI/180.0;
x[0] = sin(P) * cos(T) ;
y[0] = sin(P) * sin(T) ;
z[0] = cos(P);
@ -552,8 +552,8 @@ void Viewer::compute_elements()
normals_inter.push_back(z[0]);
//B
P = (p+rings)*M_PI/180.0;
T = t*M_PI/180.0;
P = (p+rings)*CGAL_PI/180.0;
T = t*CGAL_PI/180.0;
x[1] = sin(P) * cos(T) ;
y[1] = sin(P) * sin(T) ;
z[1] = cos(P);
@ -567,8 +567,8 @@ void Viewer::compute_elements()
normals_inter.push_back(z[1]);
//C
P = p*M_PI/180.0;
T = (t+sectors)*M_PI/180.0;
P = p*CGAL_PI/180.0;
T = (t+sectors)*CGAL_PI/180.0;
x[2] = sin(P) * cos(T) ;
y[2] = sin(P) * sin(T) ;
z[2] = cos(P);
@ -581,8 +581,8 @@ void Viewer::compute_elements()
normals_inter.push_back(y[2]);
normals_inter.push_back(z[2]);
//D
P = (p+rings)*M_PI/180.0;
T = (t+sectors)*M_PI/180.0;
P = (p+rings)*CGAL_PI/180.0;
T = (t+sectors)*CGAL_PI/180.0;
x[3] = sin(P) * cos(T) ;
y[3] = sin(P) * sin(T) ;
z[3] = cos(P);
@ -631,8 +631,8 @@ void Viewer::compute_elements()
normals_inter.push_back(-1);
P = (180-rings)*M_PI/180.0;
T = t*M_PI/180.0;
P = (180-rings)*CGAL_PI/180.0;
T = t*CGAL_PI/180.0;
x[1] = sin(P) * cos(T) ;
y[1] = sin(P) * sin(T) ;
z[1] = cos(P);
@ -646,8 +646,8 @@ void Viewer::compute_elements()
normals_inter.push_back(z[1]);
P = (180-rings)*M_PI/180.0;
T = (t+sectors)*M_PI/180.0;
P = (180-rings)*CGAL_PI/180.0;
T = (t+sectors)*CGAL_PI/180.0;
x[2] = sin(P) * cos(T) ;
y[2] = sin(P) * sin(T) ;
z[2] = cos(P);