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Merged branch 'dev_native' into lm_sla_supports_auto

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Added igl library files
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Lukas Matena 2018-10-26 15:45:52 +02:00
commit 7681d00ee5
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src/igl/raytri.c Normal file
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/* Ray-Triangle Intersection Test Routines */
/* Different optimizations of my and Ben Trumbore's */
/* code from journals of graphics tools (JGT) */
/* http://www.acm.org/jgt/ */
/* by Tomas Moller, May 2000 */
// Alec: this file is listed as "Public Domain"
// http://fileadmin.cs.lth.se/cs/Personal/Tomas_Akenine-Moller/code/
// Alec: I've added an include guard, made all functions inline and added
// IGL_RAY_TRI_ to #define macros
#ifndef IGL_RAY_TRI_C
#define IGL_RAY_TRI_C
#include <math.h>
#define IGL_RAY_TRI_EPSILON 0.000001
#define IGL_RAY_TRI_CROSS(dest,v1,v2) \
dest[0]=v1[1]*v2[2]-v1[2]*v2[1]; \
dest[1]=v1[2]*v2[0]-v1[0]*v2[2]; \
dest[2]=v1[0]*v2[1]-v1[1]*v2[0];
#define IGL_RAY_TRI_DOT(v1,v2) (v1[0]*v2[0]+v1[1]*v2[1]+v1[2]*v2[2])
#define IGL_RAY_TRI_SUB(dest,v1,v2) \
dest[0]=v1[0]-v2[0]; \
dest[1]=v1[1]-v2[1]; \
dest[2]=v1[2]-v2[2];
/* the original jgt code */
inline int intersect_triangle(double orig[3], double dir[3],
double vert0[3], double vert1[3], double vert2[3],
double *t, double *u, double *v)
{
double edge1[3], edge2[3], tvec[3], pvec[3], qvec[3];
double det,inv_det;
/* find vectors for two edges sharing vert0 */
IGL_RAY_TRI_SUB(edge1, vert1, vert0);
IGL_RAY_TRI_SUB(edge2, vert2, vert0);
/* begin calculating determinant - also used to calculate U parameter */
IGL_RAY_TRI_CROSS(pvec, dir, edge2);
/* if determinant is near zero, ray lies in plane of triangle */
det = IGL_RAY_TRI_DOT(edge1, pvec);
if (det > -IGL_RAY_TRI_EPSILON && det < IGL_RAY_TRI_EPSILON)
return 0;
inv_det = 1.0 / det;
/* calculate distance from vert0 to ray origin */
IGL_RAY_TRI_SUB(tvec, orig, vert0);
/* calculate U parameter and test bounds */
*u = IGL_RAY_TRI_DOT(tvec, pvec) * inv_det;
if (*u < 0.0 || *u > 1.0)
return 0;
/* prepare to test V parameter */
IGL_RAY_TRI_CROSS(qvec, tvec, edge1);
/* calculate V parameter and test bounds */
*v = IGL_RAY_TRI_DOT(dir, qvec) * inv_det;
if (*v < 0.0 || *u + *v > 1.0)
return 0;
/* calculate t, ray intersects triangle */
*t = IGL_RAY_TRI_DOT(edge2, qvec) * inv_det;
return 1;
}
/* code rewritten to do tests on the sign of the determinant */
/* the division is at the end in the code */
inline int intersect_triangle1(double orig[3], double dir[3],
double vert0[3], double vert1[3], double vert2[3],
double *t, double *u, double *v)
{
double edge1[3], edge2[3], tvec[3], pvec[3], qvec[3];
double det,inv_det;
/* find vectors for two edges sharing vert0 */
IGL_RAY_TRI_SUB(edge1, vert1, vert0);
IGL_RAY_TRI_SUB(edge2, vert2, vert0);
/* begin calculating determinant - also used to calculate U parameter */
IGL_RAY_TRI_CROSS(pvec, dir, edge2);
/* if determinant is near zero, ray lies in plane of triangle */
det = IGL_RAY_TRI_DOT(edge1, pvec);
if (det > IGL_RAY_TRI_EPSILON)
{
/* calculate distance from vert0 to ray origin */
IGL_RAY_TRI_SUB(tvec, orig, vert0);
/* calculate U parameter and test bounds */
*u = IGL_RAY_TRI_DOT(tvec, pvec);
if (*u < 0.0 || *u > det)
return 0;
/* prepare to test V parameter */
IGL_RAY_TRI_CROSS(qvec, tvec, edge1);
/* calculate V parameter and test bounds */
*v = IGL_RAY_TRI_DOT(dir, qvec);
if (*v < 0.0 || *u + *v > det)
return 0;
}
else if(det < -IGL_RAY_TRI_EPSILON)
{
/* calculate distance from vert0 to ray origin */
IGL_RAY_TRI_SUB(tvec, orig, vert0);
/* calculate U parameter and test bounds */
*u = IGL_RAY_TRI_DOT(tvec, pvec);
/* printf("*u=%f\n",(float)*u); */
/* printf("det=%f\n",det); */
if (*u > 0.0 || *u < det)
return 0;
/* prepare to test V parameter */
IGL_RAY_TRI_CROSS(qvec, tvec, edge1);
/* calculate V parameter and test bounds */
*v = IGL_RAY_TRI_DOT(dir, qvec) ;
if (*v > 0.0 || *u + *v < det)
return 0;
}
else return 0; /* ray is parallel to the plane of the triangle */
inv_det = 1.0 / det;
/* calculate t, ray intersects triangle */
*t = IGL_RAY_TRI_DOT(edge2, qvec) * inv_det;
(*u) *= inv_det;
(*v) *= inv_det;
return 1;
}
/* code rewritten to do tests on the sign of the determinant */
/* the division is before the test of the sign of the det */
inline int intersect_triangle2(double orig[3], double dir[3],
double vert0[3], double vert1[3], double vert2[3],
double *t, double *u, double *v)
{
double edge1[3], edge2[3], tvec[3], pvec[3], qvec[3];
double det,inv_det;
/* find vectors for two edges sharing vert0 */
IGL_RAY_TRI_SUB(edge1, vert1, vert0);
IGL_RAY_TRI_SUB(edge2, vert2, vert0);
/* begin calculating determinant - also used to calculate U parameter */
IGL_RAY_TRI_CROSS(pvec, dir, edge2);
/* if determinant is near zero, ray lies in plane of triangle */
det = IGL_RAY_TRI_DOT(edge1, pvec);
/* calculate distance from vert0 to ray origin */
IGL_RAY_TRI_SUB(tvec, orig, vert0);
inv_det = 1.0 / det;
if (det > IGL_RAY_TRI_EPSILON)
{
/* calculate U parameter and test bounds */
*u = IGL_RAY_TRI_DOT(tvec, pvec);
if (*u < 0.0 || *u > det)
return 0;
/* prepare to test V parameter */
IGL_RAY_TRI_CROSS(qvec, tvec, edge1);
/* calculate V parameter and test bounds */
*v = IGL_RAY_TRI_DOT(dir, qvec);
if (*v < 0.0 || *u + *v > det)
return 0;
}
else if(det < -IGL_RAY_TRI_EPSILON)
{
/* calculate U parameter and test bounds */
*u = IGL_RAY_TRI_DOT(tvec, pvec);
if (*u > 0.0 || *u < det)
return 0;
/* prepare to test V parameter */
IGL_RAY_TRI_CROSS(qvec, tvec, edge1);
/* calculate V parameter and test bounds */
*v = IGL_RAY_TRI_DOT(dir, qvec) ;
if (*v > 0.0 || *u + *v < det)
return 0;
}
else return 0; /* ray is parallel to the plane of the triangle */
/* calculate t, ray intersects triangle */
*t = IGL_RAY_TRI_DOT(edge2, qvec) * inv_det;
(*u) *= inv_det;
(*v) *= inv_det;
return 1;
}
/* code rewritten to do tests on the sign of the determinant */
/* the division is before the test of the sign of the det */
/* and one IGL_RAY_TRI_CROSS has been moved out from the if-else if-else */
inline int intersect_triangle3(double orig[3], double dir[3],
double vert0[3], double vert1[3], double vert2[3],
double *t, double *u, double *v)
{
double edge1[3], edge2[3], tvec[3], pvec[3], qvec[3];
double det,inv_det;
/* find vectors for two edges sharing vert0 */
IGL_RAY_TRI_SUB(edge1, vert1, vert0);
IGL_RAY_TRI_SUB(edge2, vert2, vert0);
/* begin calculating determinant - also used to calculate U parameter */
IGL_RAY_TRI_CROSS(pvec, dir, edge2);
/* if determinant is near zero, ray lies in plane of triangle */
det = IGL_RAY_TRI_DOT(edge1, pvec);
/* calculate distance from vert0 to ray origin */
IGL_RAY_TRI_SUB(tvec, orig, vert0);
inv_det = 1.0 / det;
IGL_RAY_TRI_CROSS(qvec, tvec, edge1);
if (det > IGL_RAY_TRI_EPSILON)
{
*u = IGL_RAY_TRI_DOT(tvec, pvec);
if (*u < 0.0 || *u > det)
return 0;
/* calculate V parameter and test bounds */
*v = IGL_RAY_TRI_DOT(dir, qvec);
if (*v < 0.0 || *u + *v > det)
return 0;
}
else if(det < -IGL_RAY_TRI_EPSILON)
{
/* calculate U parameter and test bounds */
*u = IGL_RAY_TRI_DOT(tvec, pvec);
if (*u > 0.0 || *u < det)
return 0;
/* calculate V parameter and test bounds */
*v = IGL_RAY_TRI_DOT(dir, qvec) ;
if (*v > 0.0 || *u + *v < det)
return 0;
}
else return 0; /* ray is parallel to the plane of the triangle */
*t = IGL_RAY_TRI_DOT(edge2, qvec) * inv_det;
(*u) *= inv_det;
(*v) *= inv_det;
return 1;
}
#endif