void compute_matrix(t_mesh *mesh)
{
mesh->result = id_matrix();
transform_matrix(mesh->result, mesh->scale);
transform_matrix(mesh->result, mesh->rot_x);
transform_matrix(mesh->result, mesh->rot_y);
transform_matrix(mesh->result, mesh->rot_z);
transform_matrix(mesh->result, mesh->trans);
}
/* all cpi and result must be aligned (have the same number of xforms,
and have final xform in the same slot) */
void flam3_interpolate_n(flam3_genome *result, int ncp,
flam3_genome *cpi, double *c, double stagger) {
int i, j, k, numstd;
if (flam3_palette_interpolation_hsv == cpi[0].palette_interpolation) {
for (i = 0; i < 256; i++) {
double t[3], s[4];
s[0] = s[1] = s[2] = s[3] = s[4] = 0.0;
for (k = 0; k < ncp; k++) {
rgb2hsv(cpi[k].palette[i].color, t);
for (j = 0; j < 3; j++)
s[j] += c[k] * t[j];
s[3] += c[k] * cpi[k].palette[i].color[3];
s[4] += c[k] * cpi[k].palette[i].index;
}
hsv2rgb(s, result->palette[i].color);
result->palette[i].color[3] = s[3];
result->palette[i].index = s[4];
for (j = 0; j < 4; j++) {
if (result->palette[i].color[j] < 0.0)
result->palette[i].color[j] = 0.0;
if (result->palette[i].color[j] > 1.0)
result->palette[i].color[j] = 1.0;
}
if (result->palette[i].index < 0.0)
result->palette[i].index = 0.0;
if (result->palette[i].index > 255.0)
result->palette[i].index = 255.0;
}
} else {
/* Sweep - not the best option for float indices */
for (i = 0; i < 256; i++) {
j = (i < (256 * c[0])) ? 0 : 1;
result->palette[i] = cpi[j].palette[i];
}
}
result->palette_index = flam3_palette_random;
result->symmetry = 0;
result->spatial_filter_select = cpi[0].spatial_filter_select;
result->temporal_filter_type = cpi[0].temporal_filter_type;
result->palette_mode = cpi[0].palette_mode;
result->interpolation_type = cpi[0].interpolation_type;
INTERP(brightness);
INTERP(contrast);
INTERP(highlight_power);
INTERP(gamma);
INTERP(vibrancy);
INTERP(hue_rotation);
INTERI(width);
INTERI(height);
INTERI(spatial_oversample);
INTERP(center[0]);
INTERP(center[1]);
INTERP(rot_center[0]);
INTERP(rot_center[1]);
INTERP(background[0]);
INTERP(background[1]);
INTERP(background[2]);
INTERP(pixels_per_unit);
INTERP(spatial_filter_radius);
INTERP(temporal_filter_exp);
INTERP(temporal_filter_width);
INTERP(sample_density);
INTERP(zoom);
INTERP(rotate);
INTERI(nbatches);
INTERI(ntemporal_samples);
INTERP(estimator);
INTERP(estimator_minimum);
INTERP(estimator_curve);
INTERP(gam_lin_thresh);
/* Interpolate the chaos array */
numstd = cpi[0].num_xforms - (cpi[0].final_xform_index >= 0);
for (i=0;i<numstd;i++) {
for (j=0;j<numstd;j++) {
INTERP(chaos[i][j]);
if (result->chaos[i][j]<0) result->chaos[i][j]=0;
//chaos can be > 1
//if (result->chaos[i][j]>1) result->chaos[i][j]=1.0;
}
}
/* Interpolate each xform */
for (i = 0; i < cpi[0].num_xforms; i++) {
double csave[2];
double td;
int all_id;
int nx = cpi[0].num_xforms-(cpi[0].final_xform_index>=0);
if (ncp==2 && stagger>0 && i!=cpi[0].final_xform_index) {
csave[0] = c[0];
csave[1] = c[1];
c[0] = get_stagger_coef(csave[0],stagger,nx,i);
c[1] = 1.0-c[0];
}
INTERP(xform[i].density);
td = result->xform[i].density;
result->xform[i].density = (td < 0.0) ? 0.0 : td;
INTERP(xform[i].color);
if (result->xform[i].color<0) result->xform[i].color=0;
if (result->xform[i].color>1) result->xform[i].color=1;
INTERP(xform[i].opacity);
INTERP(xform[i].color_speed);
INTERP(xform[i].animate);
INTERP(xform[i].blob_low);
INTERP(xform[i].blob_high);
INTERP(xform[i].blob_waves);
INTERP(xform[i].pdj_a);
INTERP(xform[i].pdj_b);
INTERP(xform[i].pdj_c);
INTERP(xform[i].pdj_d);
INTERP(xform[i].fan2_x);
INTERP(xform[i].fan2_y);
INTERP(xform[i].rings2_val);
INTERP(xform[i].perspective_angle);
INTERP(xform[i].perspective_dist);
INTERP(xform[i].julian_power);
INTERP(xform[i].julian_dist);
INTERP(xform[i].juliascope_power);
INTERP(xform[i].juliascope_dist);
INTERP(xform[i].radial_blur_angle);
INTERP(xform[i].pie_slices);
INTERP(xform[i].pie_rotation);
INTERP(xform[i].pie_thickness);
INTERP(xform[i].ngon_sides);
INTERP(xform[i].ngon_power);
INTERP(xform[i].ngon_circle);
INTERP(xform[i].ngon_corners);
INTERP(xform[i].curl_c1);
INTERP(xform[i].curl_c2);
INTERP(xform[i].rectangles_x);
INTERP(xform[i].rectangles_y);
INTERP(xform[i].amw_amp);
INTERP(xform[i].disc2_rot);
INTERP(xform[i].disc2_twist);
INTERP(xform[i].super_shape_rnd);
INTERP(xform[i].super_shape_m);
INTERP(xform[i].super_shape_n1);
INTERP(xform[i].super_shape_n2);
INTERP(xform[i].super_shape_n3);
INTERP(xform[i].super_shape_holes);
INTERP(xform[i].flower_petals);
INTERP(xform[i].flower_holes);
INTERP(xform[i].conic_eccentricity);
INTERP(xform[i].conic_holes);
INTERP(xform[i].parabola_height);
INTERP(xform[i].parabola_width);
INTERP(xform[i].bent2_x);
INTERP(xform[i].bent2_y);
INTERP(xform[i].bipolar_shift);
INTERP(xform[i].cell_size);
INTERP(xform[i].cpow_r);
INTERP(xform[i].cpow_i);
INTERP(xform[i].cpow_power);
INTERP(xform[i].curve_xamp);
INTERP(xform[i].curve_yamp);
INTERP(xform[i].curve_xlength);
INTERP(xform[i].curve_ylength);
INTERP(xform[i].escher_beta);
INTERP(xform[i].lazysusan_x);
INTERP(xform[i].lazysusan_y);
INTERP(xform[i].lazysusan_twist);
INTERP(xform[i].lazysusan_space);
INTERP(xform[i].lazysusan_spin);
INTERP(xform[i].modulus_x);
INTERP(xform[i].modulus_y);
INTERP(xform[i].oscope_separation);
INTERP(xform[i].oscope_frequency);
INTERP(xform[i].oscope_amplitude);
INTERP(xform[i].oscope_damping);
INTERP(xform[i].popcorn2_x);
INTERP(xform[i].popcorn2_y);
INTERP(xform[i].popcorn2_c);
INTERP(xform[i].separation_x);
INTERP(xform[i].separation_xinside);
INTERP(xform[i].separation_y);
INTERP(xform[i].separation_yinside);
INTERP(xform[i].split_xsize);
INTERP(xform[i].split_ysize);
INTERP(xform[i].splits_x);
INTERP(xform[i].splits_y);
INTERP(xform[i].stripes_space);
INTERP(xform[i].stripes_warp);
INTERP(xform[i].wedge_angle);
INTERP(xform[i].wedge_hole);
INTERP(xform[i].wedge_count);
INTERP(xform[i].wedge_swirl);
INTERP(xform[i].wedge_julia_angle);
INTERP(xform[i].wedge_julia_count);
INTERP(xform[i].wedge_julia_power);
INTERP(xform[i].wedge_julia_dist);
INTERP(xform[i].wedge_sph_angle);
INTERP(xform[i].wedge_sph_hole);
INTERP(xform[i].wedge_sph_count);
INTERP(xform[i].wedge_sph_swirl);
INTERP(xform[i].whorl_inside);
INTERP(xform[i].whorl_outside);
INTERP(xform[i].waves2_scalex);
INTERP(xform[i].waves2_scaley);
INTERP(xform[i].waves2_freqx);
INTERP(xform[i].waves2_freqy);
for (j = 0; j < flam3_nvariations; j++)
INTERP(xform[i].var[j]);
if (flam3_inttype_log == cpi[0].interpolation_type) {
double cxmag[4][2]; // XXX why only 4? should be ncp
double cxang[4][2];
double cxtrn[4][2];
/* affine part */
clear_matrix(result->xform[i].c);
convert_linear_to_polar(cpi,ncp,i,0,cxang,cxmag,cxtrn);
interp_and_convert_back(c, ncp, i, cxang, cxmag, cxtrn,result->xform[i].c);
/* post part */
all_id = 1;
for (k=0; k<ncp; k++)
all_id &= id_matrix(cpi[k].xform[i].post);
clear_matrix(result->xform[i].post);
if (all_id) {
result->xform[i].post[0][0] = 1.0;
result->xform[i].post[1][1] = 1.0;
} else {
convert_linear_to_polar(cpi,ncp,i,1,cxang,cxmag,cxtrn);
interp_and_convert_back(c, ncp, i, cxang, cxmag, cxtrn,result->xform[i].post);
}
} else {
/* Interpolate c matrix & post */
clear_matrix(result->xform[i].c);
clear_matrix(result->xform[i].post);
all_id = 1;
for (k = 0; k < ncp; k++) {
sum_matrix(c[k], cpi[k].xform[i].c, result->xform[i].c);
sum_matrix(c[k], cpi[k].xform[i].post, result->xform[i].post);
all_id &= id_matrix(cpi[k].xform[i].post);
}
if (all_id) {
clear_matrix(result->xform[i].post);
result->xform[i].post[0][0] = 1.0;
result->xform[i].post[1][1] = 1.0;
}
}
if (ncp==2 && stagger>0 && i!=cpi[0].final_xform_index) {
c[0] = csave[0];
c[1] = csave[1];
}
}
}
