forked from bartvdbraak/blender
Revision 14894 merged from apricot
---------------------------------- Arith: - axis angle to quat conversion function - short to float / float to short normals conversion function (eventually, we could go over the go and replace copy/pasted code everywhere) - ray triangle intersection (to complement the line triangle intersection function) View: - viewray / viewline (get near plane point under mouse and ray normal/far point) Particles: - extract viewline from brush_add function
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@ -258,6 +258,7 @@ void Vec2Addf(float *v, float *v1, float *v2);
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void Vec2Subf(float *v, float *v1, float *v2);
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void Vec2Copyf(float *v1, float *v2);
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void AxisAngleToQuat(float *q, float *axis, float angle);
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void vectoquat(float *vec, short axis, short upflag, float *q);
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float VecAngle2(float *v1, float *v2);
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@ -269,6 +270,8 @@ float NormalizedVecAngle2_2D(float *v1, float *v2);
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void euler_rot(float *beul, float ang, char axis);
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void NormalShortToFloat(float *out, short *in);
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void NormalFloatToShort(short *out, float *in);
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float DistVL2Dfl(float *v1, float *v2, float *v3);
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float PdistVL2Dfl(float *v1, float *v2, float *v3);
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@ -372,6 +375,7 @@ void tubemap(float x, float y, float z, float *u, float *v);
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void spheremap(float x, float y, float z, float *u, float *v);
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int LineIntersectsTriangle(float p1[3], float p2[3], float v0[3], float v1[3], float v2[3], float *lambda, float *uv);
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int RayIntersectsTriangle(float p1[3], float d[3], float v0[3], float v1[3], float v2[3], float *lambda, float *uv);
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int SweepingSphereIntersectsTriangleUV(float p1[3], float p2[3], float radius, float v0[3], float v1[3], float v2[3], float *lambda, float *ipoint);
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int AxialLineIntersectsTriangle(int axis, float co1[3], float co2[3], float v0[3], float v1[3], float v2[3], float *lambda);
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int AabbIntersectAabb(float min1[3], float max1[3], float min2[3], float max2[3]);
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@ -1335,6 +1335,22 @@ void NormalQuat(float *q)
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}
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}
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void AxisAngleToQuat(float *q, float *axis, float angle)
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{
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float nor[3];
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float si;
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VecCopyf(nor, axis);
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Normalize(nor);
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angle /= 2;
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si = (float)sin(angle);
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q[0] = (float)cos(angle);
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q[1] = nor[0] * si;
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q[2] = nor[1] * si;
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q[3] = nor[2] * si;
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}
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void vectoquat(float *vec, short axis, short upflag, float *q)
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{
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float q2[4], nor[3], *fp, mat[3][3], angle, si, co, x2, y2, z2, len1;
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@ -2258,6 +2274,20 @@ double Sqrt3d(double d)
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else return exp(log(d)/3);
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}
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void NormalShortToFloat(float *out, short *in)
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{
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out[0] = in[0] / 32767.0;
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out[1] = in[1] / 32767.0;
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out[2] = in[2] / 32767.0;
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}
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void NormalFloatToShort(short *out, float *in)
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{
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out[0] = (short)(in[0] * 32767.0);
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out[1] = (short)(in[1] * 32767.0);
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out[2] = (short)(in[2] * 32767.0);
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}
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/* distance v1 to line v2-v3 */
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/* using Hesse formula, NO LINE PIECE! */
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float DistVL2Dfl( float *v1, float *v2, float *v3) {
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@ -3671,6 +3701,43 @@ int LineIntersectsTriangle(float p1[3], float p2[3], float v0[3], float v1[3], f
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return 1;
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}
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/* moved from effect.c
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test if the ray starting at p1 going in d direction intersects the triangle v0..v2
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return non zero if it does
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*/
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int RayIntersectsTriangle(float p1[3], float d[3], float v0[3], float v1[3], float v2[3], float *lambda, float *uv)
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{
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float p[3], s[3], e1[3], e2[3], q[3];
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float a, f, u, v;
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VecSubf(e1, v1, v0);
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VecSubf(e2, v2, v0);
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Crossf(p, d, e2);
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a = Inpf(e1, p);
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if ((a > -0.000001) && (a < 0.000001)) return 0;
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f = 1.0f/a;
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VecSubf(s, p1, v0);
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Crossf(q, s, e1);
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*lambda = f * Inpf(e2, q);
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if ((*lambda < 0.0)) return 0;
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u = f * Inpf(s, p);
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if ((u < 0.0)||(u > 1.0)) return 0;
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v = f * Inpf(d, q);
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if ((v < 0.0)||((u + v) > 1.0)) return 0;
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if(uv) {
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uv[0]= u;
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uv[1]= v;
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}
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return 1;
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}
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/* Adapted from the paper by Kasper Fauerby */
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/* "Improved Collision detection and Response" */
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int SweepingSphereIntersectsTriangleUV(float p1[3], float p2[3], float radius, float v0[3], float v1[3], float v2[3], float *lambda, float *ipoint)
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@ -66,6 +66,8 @@ void project_int(float *vec, int *adr);
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void project_int_noclip(float *vec, int *adr);
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void project_float(float *vec, float *adr);
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void project_float_noclip(float *vec, float *adr);
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void viewray(short mval[2], float ray_start[3], float ray_normal[3]);
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void viewline(short mval[2], float ray_start[3], float ray_end[3]);
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int boundbox_clip(float obmat[][4], struct BoundBox *bb);
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void fdrawline(float x1, float y1, float x2, float y2);
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@ -2273,9 +2273,9 @@ static void brush_add(Object *ob, ParticleSystem *psys, short *mval, short numbe
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ParticleEditSettings *pset= PE_settings();
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ParticleEdit *edit = psys->edit;
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int i, k, n = 0, totpart = psys->totpart;
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short mco[2];
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short dmx = 0, dmy = 0;
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short mx = mval[0] - curarea->winx / 2, my = mval[1] - curarea->winy / 2;
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float co1[3], co2[3], vec[4], min_d, imat[4][4];
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float co1[3], co2[3], min_d, imat[4][4];
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float framestep, timestep = psys_get_timestep(psys->part);
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short size = pset->brush[PE_BRUSH_ADD].size;
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short size2 = size*size;
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@ -2302,35 +2302,9 @@ static void brush_add(Object *ob, ParticleSystem *psys, short *mval, short numbe
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}
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}
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/* create intersection coordinates in view Z direction at mouse coordinates */
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/* Thanks to who ever wrote the "Mouse Location 3D Space" tutorial in "Blender 3D: Blending Into Python/Cookbook". */
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if(G.vd->persp != V3D_ORTHO){
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vec[0]= (2.0f*(mx+dmx)/curarea->winx);
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vec[1]= (2.0f*(my+dmy)/curarea->winy);
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vec[2]= -1.0f;
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vec[3]= 1.0f;
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Mat4MulVec4fl(G.vd->persinv, vec);
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VecMulf(vec, 1.0f/vec[3]);
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VECCOPY(co1, G.vd->viewinv[3]);
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VECSUB(vec, vec, co1);
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Normalize(vec);
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VECADDFAC(co1, G.vd->viewinv[3], vec, G.vd->near);
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VECADDFAC(co2, G.vd->viewinv[3], vec, G.vd->far);
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}
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else {
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vec[0] = 2.0f*(mx+dmx)/curarea->winx;
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vec[1] = 2.0f*(my+dmy)/curarea->winy;
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vec[2] = 0.0f;
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vec[3] = 1.0f;
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Mat4MulVec4fl(G.vd->persinv,vec);
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VECADDFAC(co1,vec,G.vd->viewinv[2],1000.0f);
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VECADDFAC(co2,vec,G.vd->viewinv[2],-1000.0f);
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}
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mco[0] = mval[0] + dmx;
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mco[1] = mval[1] + dmy;
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viewline(mco, co1, co2);
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Mat4MulVecfl(imat,co1);
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Mat4MulVecfl(imat,co2);
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@ -144,6 +144,48 @@ void persp(int a)
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}
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}
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/* create intersection ray in view Z direction at mouse coordinates */
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void viewray(short mval[2], float ray_start[3], float ray_normal[3])
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{
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float ray_end[3];
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viewline(mval, ray_start, ray_end);
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VecSubf(ray_normal, ray_end, ray_start);
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Normalize(ray_normal);
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}
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/* create intersection coordinates in view Z direction at mouse coordinates */
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void viewline(short mval[2], float ray_start[3], float ray_end[3])
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{
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float vec[3];
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if(G.vd->persp != V3D_ORTHO){
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vec[0]= 2.0f * mval[0] / curarea->winx - 1;
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vec[1]= 2.0f * mval[1] / curarea->winy - 1;
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vec[2]= -1.0f;
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vec[3]= 1.0f;
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Mat4MulVec4fl(G.vd->persinv, vec);
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VecMulf(vec, 1.0f / vec[3]);
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VECCOPY(ray_start, G.vd->viewinv[3]);
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VECSUB(vec, vec, ray_start);
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Normalize(vec);
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VECADDFAC(ray_start, G.vd->viewinv[3], vec, G.vd->near);
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VECADDFAC(ray_end, G.vd->viewinv[3], vec, G.vd->far);
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}
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else {
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vec[0] = 2.0f * mval[0] / curarea->winx - 1;
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vec[1] = 2.0f * mval[1] / curarea->winy - 1;
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vec[2] = 0.0f;
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vec[3] = 1.0f;
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Mat4MulVec4fl(G.vd->persinv, vec);
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VECADDFAC(ray_start, vec, G.vd->viewinv[2], 1000.0f);
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VECADDFAC(ray_end, vec, G.vd->viewinv[2], -1000.0f);
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}
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}
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void initgrabz(float x, float y, float z)
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{
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