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/*
* povray.c
*
* Invoke POV-ray
*
* (c) 2006-2010 Thomas White <taw@physics.org>
*
* Part of CrystFEL - crystallography with a FEL
*
*/
#ifdef HAVE_CONFIG_H
#include <config.h>
#endif
#include <sys/types.h>
#include <sys/wait.h>
#include <unistd.h>
#include "cell.h"
#include "utils.h"
#include "symmetry.h"
#include "render_hkl.h"
#include "povray.h"
#define MAX_PROC (256)
int povray_render_animation(UnitCell *cell, RefList *list, unsigned int nproc,
const SymOpList *sym, int wght, double boost,
double scale_top)
{
FILE *fh;
double asx, asy, asz;
double bsx, bsy, bsz;
double csx, csy, csz;
pid_t pids[MAX_PROC];
float max;
int i;
Reflection *refl;
RefListIterator *iter;
SymOpMask *m;
if ( (nproc > MAX_PROC) || (nproc < 1) ) {
ERROR("Number of processes must be a number between 1 and %i\n",
MAX_PROC);
return 1;
}
fh = fopen("render.pov", "w");
fprintf(fh, "/* POV-Ray scene written by CrystFEL */\n\n");
fprintf(fh, "#include \"colors.inc\"\n");
fprintf(fh, "#include \"textures.inc\"\n\n");
fprintf(fh, "global_settings {\n");
fprintf(fh, " assumed_gamma 1.0\n");
fprintf(fh, " ambient_light 5.0\n");
fprintf(fh, "}\n\n");
/* First quarter */
fprintf(fh, "#if ( (clock >= 0) & (clock <= 124) )\n");
fprintf(fh, "camera { location <0.0, -3.0, 0.0>"
" sky z direction 1.1*y\n"
" right -x*(image_width/image_height)\n"
" look_at <0.0, 0.0, 0.0> }\n\n");
fprintf(fh, "#end\n");
/* Second quarter */
fprintf(fh, "#if ( (clock >= 125) & (clock <= 249) )\n");
fprintf(fh, "camera { location <0.0,"
" -(2.0+cos(radians((clock-125)*(180/125)))), 0.0>"
" sky z direction 1.1*y\n"
" right -x*(image_width/image_height)\n"
" look_at <0.0, 0.0, 0.0> }\n\n");
fprintf(fh, "#end\n");
/* Third quarter */
fprintf(fh, "#if ( (clock >= 250) & (clock <= 374) )\n");
fprintf(fh, "camera { location <0.0, -1.0, 0.0>"
" sky z direction 1.1*y\n"
" right -x*(image_width/image_height)\n"
" look_at <0.0, 0.0, 0.0> }\n\n");
fprintf(fh, "#end\n");
/* Fourth quarter */
fprintf(fh, "#if ( (clock >= 375) & (clock <= 500) )\n");
fprintf(fh, "camera { location <0.0,"
" -(2.0+cos(radians((clock-375)*(180/125)+180))), 0.0>"
" sky z direction 1.1*y\n"
" right -x*(image_width/image_height)\n"
" look_at <0.0, 0.0, 0.0> }\n\n");
fprintf(fh, "#end\n");
fprintf(fh, "light_source { <-3.0 -3.0 3.0> White }\n");
fprintf(fh, "light_source { <+3.0 -3.0 3.0> White }\n");
fprintf(fh, "light_source { <0.0, -3.0, 0.0> 2*White }\n");
fprintf(fh, "plane {z,-2.0 pigment { rgb <0.0, 0.0, 0.1> } }\n");
fprintf(fh, "plane {-z,-2.0 pigment { rgb <0.0, 0.0, 0.05> } }\n\n");
cell_get_reciprocal(cell, &asx, &asy, &asz,
&bsx, &bsy, &bsz,
&csx, &csy, &csz);
fprintf(fh, "#declare WCA = (720/19);\n");
fprintf(fh, "#declare WCL = (360/8.5);\n");
fprintf(fh, "#declare TA = (4.875);\n");
fprintf(fh, "#declare TB = (1.125);\n");
fprintf(fh, "#declare TRANS = \n");
fprintf(fh, "transform {\n");
/* First half */
/* Acceleration */
fprintf(fh, "#if ( clock <= 24 )\n"
"rotate <0, 0, 0.5*WCA*(clock/25)*(clock/25)>\n"
"#end\n"
/* Cruise */
"#if ( (clock >= 25) & (clock <= 224) )\n"
"rotate <0, 0, (WCA/2)+WCA*((clock-25)/25)>\n"
"#end\n"
/* Overlap */
/* Deceleration */
"#if ( (clock >= 225) & (clock <= 274) )\n"
"rotate <0, 0, 360-WCA + WCA*((clock-225)/25) "
" - 0.5*(WCA/2)*((clock-225)/25)*((clock-225)/25) >\n"
"#end\n"
/* Acceleration */
"#if ( (clock >= 225) & (clock <= 274) )\n"
"rotate <0.5*(WCL/2)*((clock-225)/25)*((clock-225)/25), 0, 0>\n"
"#end\n"
/* Second half */
/* Cruise */
"#if ( (clock >= 275) & (clock <= 396) )\n"
"rotate <WCL + WCL*((clock-275)/25), 0, 0>\n"
"#end\n"
/* Deceleration to pause */
"#if ( (clock >= 397) & (clock <= 421) )\n"
"rotate <(1+TA)*WCL+ WCL*((clock-397)/25) "
" - 0.5*WCL*((clock-397)/25)*((clock-397)/25), 0, 0 >\n"
"#end\n"
/* Acceleration after pause */
"#if ( (clock >= 422) & (clock <= 446) )\n"
"rotate <(1.5+TA)*WCL"
" + 0.5*WCL*((clock-422)/25)*((clock-422)/25), 0, 0>\n"
"#end\n"
/* Final Cruise */
"#if ( (clock >= 447) & (clock <= 474) )\n"
"rotate <(2+TA)*WCL + WCL*((clock-447)/25), 0, 0>\n"
"#end\n"
/* Final Deceleration */
"#if ( (clock >= 475) & (clock <= 499) )\n"
"rotate <(2+TA+TB)*WCL + WCL*((clock-475)/25) "
" - 0.5*WCL*((clock-475)/25)*((clock-475)/25), 0, 0 >\n"
"#end\n");
fprintf(fh, "}\n");
m = new_symopmask(sym);
max = 0.0;
for ( refl = first_refl(list, &iter);
refl != NULL;
refl = next_refl(refl, iter) ) {
float val;
signed int h, k, l;
get_indices(refl, &h, &k, &l);
special_position(sym, m, h, k, l);
switch ( wght ) {
case WGHT_I :
val = get_intensity(refl);
break;
case WGHT_SQRTI :
val = get_intensity(refl);
val = (val>0.0) ? sqrt(val) : 0.0;
break;
case WGHT_COUNTS :
val = get_redundancy(refl);
val /= (double)num_equivs(sym, m);
break;
case WGHT_RAWCOUNTS :
val = get_redundancy(refl);
break;
default :
ERROR("Invalid weighting.\n");
abort();
}
if ( val > max ) max = val;
}
max /= boost;
/* Use manual scale top if specified */
if ( scale_top > 0.0 ) {
max = scale_top;
}
for ( refl = first_refl(list, &iter);
refl != NULL;
refl = next_refl(refl, iter) ) {
signed int h, k, l;float radius;
int s;
float val, p, r, g, b, trans;
int j;
int neq;
get_indices(refl, &h, &k, &l);
special_position(sym, m, h, k, l);
neq = num_equivs(sym, m);
switch ( wght ) {
case WGHT_I :
val = get_intensity(refl);
break;
case WGHT_SQRTI :
val = get_intensity(refl);
val = (val>0.0) ? sqrt(val) : 0.0;
break;
case WGHT_COUNTS :
val = get_redundancy(refl);
val /= (double)neq;
break;
case WGHT_RAWCOUNTS :
val = get_redundancy(refl);
break;
default :
ERROR("Invalid weighting.\n");
abort();
}
s = val / (max/6);
p = fmod(val, max/6);
p /= (max/6);
r = 0; g = 0; b = 0;
if ( (val < 0.0) ) {
s = 0;
p = 1.0;
}
if ( (val > max) ) {
s = 6;
}
switch ( s ) {
case 0 : /* Black to blue */
r = 0.0; g = 0.0; b = p;
break;
case 1 : /* Blue to green */
r = 0.0; g = p; b = 1.0-p;
break;
case 2 : /* Green to red */
r =p; g = 1.0-p; b = 0.0;
break;
case 3 : /* Red to Orange */
r = 1.0; g = 0.5*p; b = 0.0;
break;
case 4 : /* Orange to Yellow */
r = 1.0; g = 0.5 + 0.5*p; b = 0.0;
break;
case 5 : /* Yellow to White */
r = 1.0; g = 1.0; b = 1.0*p;
break;
case 6 : /* Pixel has hit the maximum value */
r = 1.0; g = 1.0; b = 1.0;
break;
}
if ( val <= 0.0 ) continue;
radius = 0.01 * pow(val, 0.25)/pow(max, 0.25);
trans = 1.0-(val/max);
/* For each equivalent */
for ( j=0; j<neq; j++ ) {
signed int he, ke, le;
float x, y, z;
get_equiv(sym, m, j, h, k, l, &he, &ke, &le);
x = asx*he + bsx*ke + csx*le;
y = asy*he + bsy*ke + csy*le;
z = asz*he + bsz*ke + csz*le;
fprintf(fh, "sphere { <%.5f, %.5f, %.5f>, %.5f "
"texture{pigment{color rgb <%f, %f, %f>"
" transmit %f} "
"finish { reflection %f } } \n"
"transform { TRANS }\n"
"}\n",
x/1e9, y/1e9, z/1e9, radius,
r, g, b, trans, 0.1*(1.0-trans));
}
}
free_symopmask(m);
fprintf(fh, "\n");
fclose(fh);
for ( i=0; i<nproc; i++ ) {
pids[i] = fork();
if ( !( (pids[i] != 0) && (pids[i] != -1) ) ) {
if ( pids[i] == -1 ) {
ERROR("fork() failed.\n");
} else {
char minf[256];
char maxf[256];
float nf, xf, nsec;
nsec = 500.0 / (float)nproc;
nf = nsec * (float)i;
xf = (nsec * (float)i + nsec) - 1.0;
snprintf(minf, 255, "+SF%i", (int)nf);
snprintf(maxf, 255, "+EF%i", (int)xf);
/* Forked successfully, child process */
execlp("povray", "", "+W1024", "+H768",
"+Irender.pov", "+Orender.png",
"+KFI0", "+KFF499", "+KI0", "+KF499",
minf, maxf, "-D", NULL);
}
} /* else start the next one */
}
for ( i=0; i<nproc; i++ ) {
int r;
waitpid(pids[i], &r, 0);
}
return 0;
}
|