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Comparing ray/src/rt/ambcomp.c (file contents):
Revision 2.29 by greg, Wed Apr 23 06:04:17 2014 UTC vs.
Revision 2.30 by greg, Wed Apr 23 17:30:10 2014 UTC

# Line 35 | Line 35 | typedef struct {
35   #define ambsamp(h,i,j)  (h)->sa[(i)*(h)->ns + (j)]
36  
37   typedef struct {
38 <        FVECT   r_i, r_i1, e_i;
39 <        double  nf, I1, I2, J2;
38 >        FVECT   r_i, r_i1, e_i, rI2_eJ2;
39 >        double  nf, I1, I2;
40   } FFTRI;                /* vectors and coefficients for Hessian calculation */
41  
42  
# Line 138 | Line 138 | ambsample(                             /* sample an ambient direction */
138   static void
139   comp_fftri(FFTRI *ftp, float ap0[3], float ap1[3], FVECT rop)
140   {
141 <        FVECT   v1;
142 <        double  dot_e, dot_er, dot_r, dot_r1;
141 >        FVECT   vcp;
142 >        double  dot_e, dot_er, dot_r, dot_r1, J2;
143 >        int     i;
144  
145          VSUB(ftp->r_i, ap0, rop);
146          VSUB(ftp->r_i1, ap1, rop);
147          VSUB(ftp->e_i, ap1, ap0);
148 <        VCROSS(v1, ftp->e_i, ftp->r_i);
149 <        ftp->nf = 1.0/DOT(v1,v1);
148 >        VCROSS(vcp, ftp->e_i, ftp->r_i);
149 >        ftp->nf = 1.0/DOT(vcp,vcp);
150          dot_e = DOT(ftp->e_i,ftp->e_i);
151          dot_er = DOT(ftp->e_i, ftp->r_i);
152          dot_r = DOT(ftp->r_i,ftp->r_i);
# Line 154 | Line 155 | comp_fftri(FFTRI *ftp, float ap0[3], float ap1[3], FVE
155                          sqrt( ftp->nf );
156          ftp->I2 = ( DOT(ftp->e_i, ftp->r_i1)/dot_r1 - dot_er/dot_r +
157                          dot_e*ftp->I1 )*0.5*ftp->nf;
158 <        ftp->J2 =  0.5/dot_e*( 1.0/dot_r - 1.0/dot_r1 ) -
159 <                        dot_er/dot_e*ftp->I2;
158 >        J2 =  0.5/dot_e*( 1.0/dot_r - 1.0/dot_r1 ) - dot_er/dot_e*ftp->I2;
159 >        for (i = 3; i--; )
160 >                ftp->rI2_eJ2[i] = ftp->I2*ftp->r_i[i] + J2*ftp->e_i[i];
161   }
162  
163  
# Line 176 | Line 178 | compose_matrix(FVECT mat[3], FVECT va, FVECT vb)
178   static void
179   comp_hessian(FVECT hess[3], FFTRI *ftp, FVECT nrm)
180   {
181 <        FVECT   v1, v2;
181 >        FVECT   vcp;
182          FVECT   m1[3], m2[3], m3[3], m4[3];
183          double  d1, d2, d3, d4;
184          double  I3, J3, K3;
# Line 191 | Line 193 | comp_hessian(FVECT hess[3], FFTRI *ftp, FVECT nrm)
193          J3 = 0.25*d3*(d1*d1 - d2*d2) - d4*d3*I3;
194          K3 = d3*(ftp->I2 - I3/d1 - 2.0*d4*J3);
195                                          /* intermediate matrices */
196 <        VCROSS(v1, nrm, ftp->e_i);
197 <        for (j = 3; j--; )
196 <                v2[j] = ftp->I2*ftp->r_i[j] + ftp->J2*ftp->e_i[j];
197 <        compose_matrix(m1, v1, v2);
196 >        VCROSS(vcp, nrm, ftp->e_i);
197 >        compose_matrix(m1, vcp, ftp->rI2_eJ2);
198          compose_matrix(m2, ftp->r_i, ftp->r_i);
199          compose_matrix(m3, ftp->e_i, ftp->e_i);
200          compose_matrix(m4, ftp->r_i, ftp->e_i);
201 <        VCROSS(v1, ftp->r_i, ftp->e_i);
202 <        d1 = DOT(nrm, v1);
201 >        VCROSS(vcp, ftp->r_i, ftp->e_i);
202 >        d1 = DOT(nrm, vcp);
203          d2 = -d1*ftp->I2;
204          d1 *= 2.0;
205          for (i = 3; i--; )              /* final matrix sum */
# Line 251 | Line 251 | comp_gradient(FVECT grad, FFTRI *ftp, FVECT nrm)
251          f1 = 2.0*DOT(nrm, vcp);
252          VCROSS(vcp, nrm, ftp->e_i);
253          for (i = 3; i--; )
254 <                grad[i] = (0.5/PI)*( ftp->I1*vcp[i] +
255 <                            f1*(ftp->I2*ftp->r_i[i] + ftp->J2*ftp->e_i[i]) );
254 >                grad[i] = (0.5/PI)*( ftp->I1*vcp[i] + f1*ftp->rI2_eJ2[i] );
255   }
256  
257  

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