src/rt/mkpmap.c

#ifndef lint
static const char RCSid[] = "$Id: mkpmap.c,v 2.10 2020/08/07 01:21:13 rschregle Exp $";
#endif


/* 
   ======================================================================
   Photon map generator
   
   Roland Schregle (roland.schregle@{hslu.ch, gmail.com})
   (c) Fraunhofer Institute for Solar Energy Systems,
       supported by the German Research Foundation 
       (DFG LU-204/10-2, "Fassadenintegrierte Regelsysteme" (FARESYS)) 
   (c) Lucerne University of Applied Sciences and Arts,
       supported by the Swiss National Science Foundation 
       (SNSF #147053, "Daylight Redirecting Components")
   (c) Tokyo University of Science,
       supported by the JSPS Grants-in-Aid for Scientific Research 
       (KAKENHI JP19KK0115, "Three-Dimensional Light Flow")
   ======================================================================
   
   $Id: mkpmap.c,v 2.10 2020/08/07 01:21:13 rschregle Exp $    
*/


#include "pmap.h"
#include "pmapmat.h"
#include "pmapsrc.h"
#include "pmapcontrib.h"
#include "pmaprand.h"
#include "paths.h"
#include "ambient.h"
#include "resolu.h"
#include "source.h"
#include <ctype.h>
#include <string.h>
#include <sys/stat.h>


/* Enable options for Ze Ekspertz only! */
#define PMAP_EKSPERTZ


extern char VersionID [];


char*    progname;                  /* argv[0] */
int      dimlist [MAXDIM];          /* sampling dimensions */
int      ndims = 0;                 /* number of sampling dimenshunns */
char*    octname = NULL;            /* octree name */
CUBE     thescene;                  /* scene top-level octree */
OBJECT   nsceneobjs;                /* number of objects in scene */
double   srcsizerat = 0.01;         /* source partition size ratio */
int      backvis = 1;               /* back face visibility */
int      clobber = 0;               /* overwrite output */
COLOR    cextinction = BLKCOLOR;    /* global extinction coefficient */
COLOR    salbedo = BLKCOLOR;        /* global scattering albedo */
double   seccg = 0;                 /* global scattering eccentricity */
char     *amblist [AMBLLEN + 1];    /* ambient include/exclude list */
int      ambincl = -1;              /* include == 1, exclude == 0 */
char     *diagFile = NULL;          /* diagnostics output file */
int      rand_samp = 1;             /* uncorrelated random sampling */
unsigned nproc = 1;                 /* number of parallel processes */
#ifdef EVALDRC_HACK
   char  *angsrcfile = NULL;        /* angular source file for EvalDRC */
#endif


/* Dummies for linkage */

COLOR ambval = BLKCOLOR;
double   shadthresh = .05, ambacc = 0.2, shadcert = .5, minweight = 5e-3, 
         ssampdist = 0, dstrsrc = 0.0, specthresh = 0.15, specjitter = 1.0,
         avgrefl = 0.5;
int      ambvwt = 0, ambssamp = 0, ambres = 32, ambounce = 0, 
         directrelay = 1, directvis = 1, samplendx, do_irrad = 0, 
         ambdiv = 128, vspretest = 512, maxdepth = 6, contrib = 0;
char     *shm_boundary = NULL, *ambfile = NULL, *RCCONTEXT = NULL;
void     (*trace)() = NULL, (*addobjnotify [])() = {ambnotify, NULL};

  
void printdefaults()
/* print default values to stdout */
{
#ifdef EVALDRC_HACK
   /* EvalDRC support */
   puts("-A\t\t\t\t# angular source file");
#endif    
   puts("-ae  mod\t\t\t\t# exclude modifier");
   puts("-aE  file\t\t\t\t# exclude modifiers from file");
   puts("-ai  mod\t\t\t\t# include modifier");
   puts("-aI  file\t\t\t\t# include modifiers from file");
#ifdef PMAP_EKSPERTZ
   puts("-api xmin ymin zmin xmax ymax zmax\t# rectangular region of interest");
   puts("-apI xpos ypos zpos radius\t\t# spherical region of interest");
#endif
   puts("-apg file nPhotons\t\t\t# global photon map");
   puts("-apc file nPhotons\t\t\t# caustic photon map");
   puts("-apd file nPhotons\t\t\t# direct photon map");
   puts("-app file nPhotons bwidth\t\t# precomputed global photon map");
   puts("-apv file nPhotons\t\t\t# volume photon map");
   puts("-apC file nPhotons\t\t\t# contribution photon map");   
   printf("-apD %f\t\t\t\t# predistribution factor\n", preDistrib);
   printf("-apM %d\t\t\t\t\t# max predistrib passes\n", maxPreDistrib);
#if 1
   /* Kept for backwards compat, will be gradually phased out by -ld, -lr */
   printf("-apm %ld\t\t\t\t# limit photon bounces\n", photonMaxBounce);
#endif
   puts("-apo+ mod\t\t\t\t# photon port modifier");
   puts("-apO+ file\t\t\t\t# photon ports from file");
   printf("-apP %f\t\t\t\t# precomputation factor\n", finalGather);
   printf("-apr %d\t\t\t\t\t# random seed\n", randSeed);
   puts("-aps mod\t\t\t\t# antimatter sensor modifier");
   puts("-apS file\t\t\t\t# antimatter sensors from file");

   printf(backvis 
      ? "-bv+\t\t\t\t\t# back face visibility on\n"
      : "-bv-\t\t\t\t\t# back face visibility off\n"
   );
   printf("-dp  %.1f\t\t\t\t# PDF samples / sr\n", pdfSamples);
   printf("-ds  %f\t\t\t\t# source partition size ratio\n", srcsizerat);
   printf("-e   %s\t\t\t\t# diagnostics output file\n", diagFile);
   printf(clobber 
      ?  "-fo+\t\t\t\t\t# force overwrite\n" 
      :  "-fo-\t\t\t\t\t# do not overwrite\n"
   );
#ifdef PMAP_EKSPERTZ
   /* (Formerly) NU STUFF for Ze Exspertz! */      
   printf("-ld %.1f\t\t\t\t\t# limit photon distance\n", photonMaxDist);
   printf("-lr %ld\t\t\t\t# limit photon bounces\n", photonMaxBounce);   
#endif   
   printf(
      "-ma  %.2f %.2f %.2f\t\t\t# scattering albedo\n", 
      colval(salbedo,RED), colval(salbedo,GRN), colval(salbedo,BLU)
   );
   printf(
      "-me  %.2e %.2e %.2e\t\t# extinction coefficient\n", 
      colval(cextinction,RED), colval(cextinction,GRN), 
      colval(cextinction,BLU)
   );
   printf("-mg  %.2f\t\t\t\t# scattering eccentricity\n", seccg);
#if NIX   
   /* Multiprocessing on NIX only; so tuff luck, Windoze Weenies! */
   printf("-n   %d\t\t\t\t\t# number of parallel processes\n", nproc);
#endif   
   printf("-t   %-9d\t\t\t\t# time between reports\n", photonRepTime);
   printf(verbose 
      ?  "-v+\t\t\t\t\t# verbose console output\n"
      :  "-v-\t\t\t\t\t# terse console output\n"
   );
}


int main (int argc, char* argv [])
{
   #define check(ol, al) if ( \
      argv [i][ol] || badarg(argc - i - 1,argv + i + 1, al) \
   ) goto badopt
   
   /* Evaluate boolean option, setting var accordingly */                         
   #define check_bool(olen, var) switch (argv [i][olen]) { \
      case '\0': \
         var = !var; break; \
      case 'y': case 'Y': case 't': case 'T': case '+': case '1': \
         var = 1; break; \
      case 'n': case 'N': case 'f': case 'F': case '-': case '0': \
         var = 0; break; \
      default: \
         goto badopt; \
   }
   
   /* Evaluate trinary option, setting bits v1 and v2 in var accordingly */
   #define check_tri(olen, v1, v2, var) switch (argv [i][olen]) { \
      case '\0': case '+': \
         var = v1; break; \
      case '-': \
         var = v2; break;\
      case '0': \
         var = v1 | v2; break; \
      default: \
         goto badopt; \
   }

   int      loadflags = IO_CHECK | IO_SCENE | IO_TREE | IO_BOUNDS, 
            rval, i, j, n;
   char     **portLp = photonPortList, **sensLp = photonSensorList, 
            **amblp = NULL, sbuf [MAXSTR], portFlags [2] = "\0\0";
   struct   stat pmstat;

   /* Global program name */
   progname = fixargv0(argv [0]);
   /* Initialize object types */
   initotypes();
   
   /* Parse options */
   for (i = 1; i < argc; i++) {
      /* Eggs-pand arguments */
      while ((rval = expandarg(&argc, &argv, i)))
         if (rval < 0) {
            sprintf(errmsg, "cannot eggs-pand '%s'", argv [i]);
            error(SYSTEM, errmsg);
         }
         
      if (argv[i] == NULL) 
         break;
         
      if (!strcmp(argv [i], "-version")) {
         puts(VersionID);
         quit(0);
      }
      
      if (!strcmp(argv [i], "-defaults") || !strcmp(argv [i], "-help")) {
         printdefaults();
         quit(0);
      }
      
      /* Get octree */
      if (i == argc - 1) {
         octname = argv [i];
         break;
      }
            
      switch (argv [i][1]) {
         case 'a': /* Ambient */
            switch (argv [i][2]) {
               case 'i': /* Ambient include */
               case 'I':
                  check(3, "s");
                  if (ambincl != 1) {
                     ambincl = 1;
                     amblp = amblist;
                  }
                  if (isupper(argv [i][2])) {
                     /* Add modifiers from file */
                     rval = wordfile(
                        amblp, AMBLLEN - (amblp - amblist),
                        getpath(argv [++i], getrlibpath(), R_OK)
                     );
                     if (rval < 0) {
                        sprintf(
                           errmsg, "cannot open ambient include file \"%s\"",
                           argv [i]
                        );
                        error(SYSTEM, errmsg);
                     }
                     amblp += rval;
                  } 
                  else {
                     /* Add modifier from next arg */
                     *amblp++ = savqstr(argv [++i]);
                     *amblp = NULL;
                  }
                  break;

               case 'e': /* Ambient exclude */
               case 'E':
                  check(3, "s");
                  if (ambincl != 0) {
                     ambincl = 0;
                     amblp = amblist;
                  }
                  if (isupper(argv [i][2])) { 
                     /* Add modifiers from file */
                     rval = wordfile(
                        amblp, AMBLLEN - (amblp - amblist),
                        getpath(argv [++i], getrlibpath(), R_OK)
                     );
                     if (rval < 0) {
                        sprintf(
                           errmsg, "cannot open ambient exclude file \"%s\"", 
                           argv [i]
                        );
                        error(SYSTEM, errmsg);
                     }
                     amblp += rval;
                  } 
                  else {
                     /* Add modifier from next arg */ 
                     *amblp++ = savqstr(argv [++i]);
                     *amblp = NULL;
                  }
                  break;
            
               case 'p': /* Pmap-specific */
                  switch (argv [i][3]) {
                     case 'g': /* Global photon map */
                        check(4, "ss");
                        globalPmapParams.fileName = argv [++i];
                        globalPmapParams.distribTarget = 
                           parseMultiplier(argv [++i]);
                        if (!globalPmapParams.distribTarget) 
                           goto badopt;
                        globalPmapParams.minGather = 
                           globalPmapParams.maxGather = 0;
                        break;
            
                     case 'p': /* Precomputed global photon map */
                        check(4, "ssi");
                        preCompPmapParams.fileName = argv [++i];
                        preCompPmapParams.distribTarget = 
                           parseMultiplier(argv [++i]);
                        if (!preCompPmapParams.distribTarget) 
                           goto badopt;
                        preCompPmapParams.minGather = 
                           preCompPmapParams.maxGather = atoi(argv [++i]);
                        if (!preCompPmapParams.maxGather) 
                           goto badopt;
                        break;
            
                     case 'c': /* Caustic photon map */
                        check(4, "ss");
                        causticPmapParams.fileName = argv [++i];
                        causticPmapParams.distribTarget = 
                           parseMultiplier(argv [++i]);
                        if (!causticPmapParams.distribTarget) 
                           goto badopt;
                        break;
                  
                     case 'v': /* Volume photon map */
                        check(4, "ss");
                        volumePmapParams.fileName = argv [++i];
                        volumePmapParams.distribTarget = 
                           parseMultiplier(argv [++i]);
                        if (!volumePmapParams.distribTarget) 
                           goto badopt;
                        break;
                     
                     case 'd': /* Direct photon map */
                        check(4, "ss");
                        directPmapParams.fileName = argv [++i];
                        directPmapParams.distribTarget = 
                           parseMultiplier(argv [++i]);
                        if (!directPmapParams.distribTarget) 
                           goto badopt;
                        break;
                     
                     case 'C': /* Contribution photon map */
                        check(4, "ss");
                        contribPmapParams.fileName = argv [++i];
                        contribPmapParams.distribTarget =
                           parseMultiplier(argv [++i]);
                        if (!contribPmapParams.distribTarget)
                           goto badopt;
                        break;

                     case 'D': /* Predistribution factor */
                        check(4, "f");
                        preDistrib = atof(argv [++i]);
                        if (preDistrib <= 0)
                           error(USER, "predistrib factor must be > 0");
                        break;

                     case 'M': /* Max predistribution passes */
                        check(4, "i");
                        maxPreDistrib = atoi(argv [++i]);
                        if (maxPreDistrib <= 0)
                           error(USER, "max predistrib passes must be > 0");
                        break;

#if 1
                     /* Kept for backwards compat, to be phased out by -lr */
                     case 'm': /* Max photon bounces */
                        check(4, "i");
                        photonMaxBounce = atol(argv [++i]);
                        if (photonMaxBounce <= 0) 
                           error(USER, "max photon bounces must be > 0");
                        break;
#endif

#ifdef PMAP_EKSPERTZ
                     case 'i': /* Add rectangular region of interest */
                     case 'I': /* Add spherical region of interest */
                        check(4, isupper(argv [j=i][3]) ? "ffff" : "ffffff");
                        n = pmapNumROI;
                        
                        pmapROI = realloc(
                           pmapROI, ++pmapNumROI * sizeof(PhotonMapROI)
                        );
                        if (!pmapROI)
                           error(SYSTEM, "failed to allocate ROI");
                        
                        pmapROI [n].pos [0] = atof(argv [++i]);
                        pmapROI [n].pos [1] = atof(argv [++i]);
                        pmapROI [n].pos [2] = atof(argv [++i]);
                        pmapROI [n].siz [0] = atof(argv [++i]);

                        if (isupper(argv [j][3])) {
                           /* Spherical ROI; radius^2 */
                           pmapROI [n].siz [0] *= pmapROI [n].siz [0];
                           PMAP_ROI_SETSPHERE(pmapROI + n);
                           if (pmapROI [n].siz [0] <= FTINY)
                              error(
                                 USER, 
                                 "region of interest has invalid radius"
                              );
                        }
                        else {
                           /* Rectangular ROI */
                           pmapROI [n].siz [1] = atof(argv [++i]);
                           pmapROI [n].siz [2] = atof(argv [++i]);

                           for (j = 0; j < 3; j++) {
                              /* Pos at rectangle centre, siz symmetric */
                              pmapROI [n].pos [j] = 0.5 * (
                                 pmapROI [n].pos [j] + pmapROI [n].siz [j]
                              );
                              pmapROI [n].siz [j] = fabs(
                                 pmapROI [n].siz [j] - pmapROI [n].pos [j]
                              );
                              if (pmapROI [n].siz [j] <= FTINY)
                                 error(
                                    USER, 
                                    "region of interest has invalid size"
                                 );
                           }
                        }
                        break;
#endif

                     case 'P': /* Global photon precomp ratio */
                        check(4, "f");
                        finalGather = atof(argv [++i]);
                        if (finalGather <= 0 || finalGather > 1)
                           error(
                              USER, "global photon precomputation ratio "
                              "must be in range ]0, 1]"
                           );
                        break;
                     
                     case 'o': /* Photon port */ 
                     case 'O':
                        /* Check for bad arg and length, taking into account
                         * default forward orientation if none specified, in
                         * order to maintain previous behaviour */
                        check(argv [i][4] ? 5 : 4, "s");
                        /* Get port orientation flags */
                        check_tri(
                           4, PMAP_PORTFWD, PMAP_PORTBWD, portFlags [0]
                        );
                        
                        if (isupper(argv [i][3])) {
                           /* Add port modifiers from file */
                           rval = wordfile(
                              portLp, MAXSET - (portLp - photonPortList),
                              getpath(argv [++i], getrlibpath(), R_OK)
                           );
                           if (rval < 0) {
                               sprintf(
                                  errmsg, "cannot open photon port file %s", 
                                  argv [i]
                               );
                               error(SYSTEM, errmsg);
                           }
                           /* HACK: append port orientation flags to every 
                            * modifier; note this requires reallocation */
                           for (; rval--; portLp++) {
                              j = strlen(*portLp);
                              if (!(*portLp = realloc(*portLp, j + 2))) {
                                  sprintf(
                                     errmsg, 
                                     "cannot allocate photon port modifiers"
                                     " from file %s", argv [i]
                                  );
                                  error(SYSTEM, errmsg);
                              }
                              strcat(*portLp, portFlags);
                           }
                        } 
                        else {
                           /* Append port flags to port modifier, add to 
                            * port list and mark of end list with NULL */
                           strcpy(sbuf, argv [++i]);
                           strcat(sbuf, portFlags);
                           *portLp++ = savqstr(sbuf);
                           *portLp = NULL;
                        }
                        break;
                     
                     case 'r': /* Random seed */
                        check(4, "i");
                        randSeed = atoi(argv [++i]);
                        break;                   

                     case 's': /* Antimatter sensor */ 
                     case 'S':
                        check(4, "s");
                        if (isupper(argv[i][3])) {
                           /* Add sensor modifiers from file */
                           rval = wordfile(
                              sensLp, MAXSET - (sensLp - photonSensorList),
                              getpath(argv [++i], getrlibpath(), R_OK)
                           );
                           if (rval < 0) {
                               sprintf(
                                 errmsg, 
                                 "cannot open antimatter sensor file %s",
                                 argv [i]
                              );
                              error(SYSTEM, errmsg);
                           }
                           sensLp += rval;
                        } 
                        else {
                           /* Append modifier to sensor list, mark end with
                            * NULL */
                           *sensLp++ = savqstr(argv [++i]);
                           *sensLp = NULL;
                        }
                        break;

                     default: goto badopt;
                  }
                  break;
                  
               default: goto badopt;
            }
            break;
                
         case 'b': /* Back face visibility */
            if (argv [i][2] == 'v') {
               check_bool(3, backvis);
            }
            else goto badopt;
            break;
                   
         case 'd': /* Direct */
            switch (argv [i][2]) {
               case 'p': /* PDF samples */
                  check(3, "f");
                  pdfSamples = atof(argv [++i]);
                  break;
                  
               case 's': /* Source partition size ratio */
                  check(3, "f");
                  srcsizerat = atof(argv [++i]);
                  break;
                  
               default: goto badopt;
            }                   
            break;
                   
         case 'e': /* Diagnostics file */
            check(2, "s");
            diagFile = argv [++i];
            break;
                  
         case 'f': /* Force overwrite */
            if (argv [i][2] == 'o') {
               check_bool(3, clobber);
            }
            else goto badopt;
            break; 

#ifdef PMAP_EKSPERTZ
         case 'l': /* Limits */
            switch (argv [i][2]) {
               case 'd': /* Limit photon path distance */
                  check(3, "f");
                  photonMaxDist = atof(argv [++i]);
                  if (photonMaxDist <= 0)
                     error(USER, "max photon distance must be > 0");
                  break;
                 
               case 'r': /* Limit photon bounces */               
                  check(3, "i");               
                  photonMaxBounce = atol(argv [++i]);
                  if (photonMaxBounce <= 0) 
                     error(USER, "max photon bounces must be > 0");
                  break;
               
               default: goto badopt;
            }
            break;
#endif

         case 'm': /* Medium */
            switch (argv[i][2]) {
               case 'e': /* Eggs-tinction coefficient */
                  check(3, "fff");
                  setcolor(
                     cextinction, atof(argv [i + 1]),
                     atof(argv [i + 2]), atof(argv [i + 3])
                  );
                  i += 3;
                  break;
                                
               case 'a':        /* Albedo */
                  check(3, "fff");
                  setcolor(
                     salbedo, atof(argv [i + 1]), 
                     atof(argv [i + 2]), atof(argv [i + 3])
                  );
                  i += 3;
                  break;
                                
               case 'g':        /* Scattering eccentricity */
                  check(3, "f");
                  seccg = atof(argv [++i]);
                  break;
                                
               default: goto badopt;
            }                   
            break;
            
#if NIX
         case 'n': /* Num parallel processes (NIX only) */
            check(2, "i");
            nproc = atoi(argv [++i]);
            
            if (nproc > PMAP_MAXPROC) {
               nproc = PMAP_MAXPROC;
               sprintf(
                  errmsg, "too many parallel processes, clamping to %d\n", 
                  nproc
               );
               error(WARNING, errmsg);
            }
            break;
#endif

         case 't': /* Timer */
            check(2, "i");
            photonRepTime = atoi(argv [++i]);
            break;
            
         case 'v':   /* Verbosity */
            check_bool(2, verbose);
            break;
            
#ifdef EVALDRC_HACK
         case 'A':   /* Angular source file */
            check(2,"s");
            angsrcfile = argv[++i];
            break;
#endif

        default: goto badopt;
      }
   }
   
   /* Open diagnostics file */
   if (diagFile) {
      if (!freopen(diagFile, "a", stderr)) 
         quit(2);
      fprintf(stderr, "**************\n*** PID %5d: ", getpid());
      printargs(argc, argv, stderr);
      putc('\n', stderr);
      fflush(stderr);
   }
   
#ifdef NICE
   /* Lower priority */
   nice(NICE);
#endif

   if (octname == NULL) 
      error(USER, "missing octree argument");
      
   /* Allocate photon maps and set parameters */
   for (i = 0; i < NUM_PMAP_TYPES; i++) {
      setPmapParam(photonMaps + i, pmapParams + i);
      
      /* Don't overwrite existing photon map unless clobbering enabled */
      if (
         photonMaps [i] && !stat(photonMaps [i] -> fileName, &pmstat) &&
         !clobber
      ) {
         sprintf(
            errmsg, "photon map file %s exists, not overwritten",
           photonMaps [i] -> fileName
         );
         error(USER, errmsg);
      }
   }
       
   for (i = 0; i < NUM_PMAP_TYPES && !photonMaps [i]; i++);
   if (i >= NUM_PMAP_TYPES)
      error(USER, "no photon maps specified");
   
   readoct(octname, loadflags, &thescene, NULL);
#ifdef EVALDRC_HACK   
   if (angsrcfile)
      readobj(angsrcfile);    /* load angular sources */
#endif         
   nsceneobjs = nobjects;
   
   /* Get sources */
   marksources();

   /* Do forward pass and build photon maps */
   if (contribPmap)
      /* Just build contrib pmap, ignore others */
      distribPhotonContrib(contribPmap, nproc);
   else
      distribPhotons(photonMaps, nproc);
   
   /* Save photon maps; no idea why GCC needs an explicit cast here... */
   savePmaps((const PhotonMap**)photonMaps, argc, argv);
   cleanUpPmaps(photonMaps);
   
   quit(0);

badopt:
   sprintf(errmsg, "command line error at '%s'", argv[i]);
   error(USER, errmsg);

   #undef check
   #undef check_bool
   return 0;
}

Revision:	2.11
Committed:	Wed Apr 14 11:26:25 2021 UTC (4 years, 6 months ago) by rschregle
Content type:	text/plain
Branch:	MAIN
CVS Tags:	rad5R4
Changes since 2.10:	+151 -89 lines
Log Message:	feat(mkpmap): Added -apI option for spherical ROI
#	Content
1	#ifndef lint
2	static const char RCSid[] = "$Id: mkpmap.c,v 2.10 2020/08/07 01:21:13 rschregle Exp $";
3	#endif
4
5
6	/*
7	======================================================================
8	Photon map generator
9
10	Roland Schregle (roland.schregle@{hslu.ch, gmail.com})
11	(c) Fraunhofer Institute for Solar Energy Systems,
12	supported by the German Research Foundation
13	(DFG LU-204/10-2, "Fassadenintegrierte Regelsysteme" (FARESYS))
14	(c) Lucerne University of Applied Sciences and Arts,
15	supported by the Swiss National Science Foundation
16	(SNSF #147053, "Daylight Redirecting Components")
17	(c) Tokyo University of Science,
18	supported by the JSPS Grants-in-Aid for Scientific Research
19	(KAKENHI JP19KK0115, "Three-Dimensional Light Flow")
20	======================================================================
21
22	$Id: mkpmap.c,v 2.10 2020/08/07 01:21:13 rschregle Exp $
23	*/
24
25
26	#include "pmap.h"
27	#include "pmapmat.h"
28	#include "pmapsrc.h"
29	#include "pmapcontrib.h"
30	#include "pmaprand.h"
31	#include "paths.h"
32	#include "ambient.h"
33	#include "resolu.h"
34	#include "source.h"
35	#include <ctype.h>
36	#include <string.h>
37	#include <sys/stat.h>
38
39
40	/* Enable options for Ze Ekspertz only! */
41	#define PMAP_EKSPERTZ
42
43
44	extern char VersionID [];
45
46
47	char* progname; /* argv[0] */
48	int dimlist [MAXDIM]; /* sampling dimensions */
49	int ndims = 0; /* number of sampling dimenshunns */
50	char* octname = NULL; /* octree name */
51	CUBE thescene; /* scene top-level octree */
52	OBJECT nsceneobjs; /* number of objects in scene */
53	double srcsizerat = 0.01; /* source partition size ratio */
54	int backvis = 1; /* back face visibility */
55	int clobber = 0; /* overwrite output */
56	COLOR cextinction = BLKCOLOR; /* global extinction coefficient */
57	COLOR salbedo = BLKCOLOR; /* global scattering albedo */
58	double seccg = 0; /* global scattering eccentricity */
59	char amblist [AMBLLEN + 1]; / ambient include/exclude list */
60	int ambincl = -1; /* include == 1, exclude == 0 */
61	char diagFile = NULL; / diagnostics output file */
62	int rand_samp = 1; /* uncorrelated random sampling */
63	unsigned nproc = 1; /* number of parallel processes */
64	#ifdef EVALDRC_HACK
65	char angsrcfile = NULL; / angular source file for EvalDRC */
66	#endif
67
68
69	/* Dummies for linkage */
70
71	COLOR ambval = BLKCOLOR;
72	double shadthresh = .05, ambacc = 0.2, shadcert = .5, minweight = 5e-3,
73	ssampdist = 0, dstrsrc = 0.0, specthresh = 0.15, specjitter = 1.0,
74	avgrefl = 0.5;
75	int ambvwt = 0, ambssamp = 0, ambres = 32, ambounce = 0,
76	directrelay = 1, directvis = 1, samplendx, do_irrad = 0,
77	ambdiv = 128, vspretest = 512, maxdepth = 6, contrib = 0;
78	char shm_boundary = NULL, ambfile = NULL, *RCCONTEXT = NULL;
79	void (trace)() = NULL, (addobjnotify [])() = {ambnotify, NULL};
80
81
82	void printdefaults()
83	/* print default values to stdout */
84	{
85	#ifdef EVALDRC_HACK
86	/* EvalDRC support */
87	puts("-A\t\t\t\t# angular source file");
88	#endif
89	puts("-ae mod\t\t\t\t# exclude modifier");
90	puts("-aE file\t\t\t\t# exclude modifiers from file");
91	puts("-ai mod\t\t\t\t# include modifier");
92	puts("-aI file\t\t\t\t# include modifiers from file");
93	#ifdef PMAP_EKSPERTZ
94	puts("-api xmin ymin zmin xmax ymax zmax\t# rectangular region of interest");
95	puts("-apI xpos ypos zpos radius\t\t# spherical region of interest");
96	#endif
97	puts("-apg file nPhotons\t\t\t# global photon map");
98	puts("-apc file nPhotons\t\t\t# caustic photon map");
99	puts("-apd file nPhotons\t\t\t# direct photon map");
100	puts("-app file nPhotons bwidth\t\t# precomputed global photon map");
101	puts("-apv file nPhotons\t\t\t# volume photon map");
102	puts("-apC file nPhotons\t\t\t# contribution photon map");
103	printf("-apD %f\t\t\t\t# predistribution factor\n", preDistrib);
104	printf("-apM %d\t\t\t\t\t# max predistrib passes\n", maxPreDistrib);
105	#if 1
106	/* Kept for backwards compat, will be gradually phased out by -ld, -lr */
107	printf("-apm %ld\t\t\t\t# limit photon bounces\n", photonMaxBounce);
108	#endif
109	puts("-apo+ mod\t\t\t\t# photon port modifier");
110	puts("-apO+ file\t\t\t\t# photon ports from file");
111	printf("-apP %f\t\t\t\t# precomputation factor\n", finalGather);
112	printf("-apr %d\t\t\t\t\t# random seed\n", randSeed);
113	puts("-aps mod\t\t\t\t# antimatter sensor modifier");
114	puts("-apS file\t\t\t\t# antimatter sensors from file");
115
116	printf(backvis
117	? "-bv+\t\t\t\t\t# back face visibility on\n"
118	: "-bv-\t\t\t\t\t# back face visibility off\n"
119	);
120	printf("-dp %.1f\t\t\t\t# PDF samples / sr\n", pdfSamples);
121	printf("-ds %f\t\t\t\t# source partition size ratio\n", srcsizerat);
122	printf("-e %s\t\t\t\t# diagnostics output file\n", diagFile);
123	printf(clobber
124	? "-fo+\t\t\t\t\t# force overwrite\n"
125	: "-fo-\t\t\t\t\t# do not overwrite\n"
126	);
127	#ifdef PMAP_EKSPERTZ
128	/* (Formerly) NU STUFF for Ze Exspertz! */
129	printf("-ld %.1f\t\t\t\t\t# limit photon distance\n", photonMaxDist);
130	printf("-lr %ld\t\t\t\t# limit photon bounces\n", photonMaxBounce);
131	#endif
132	printf(
133	"-ma %.2f %.2f %.2f\t\t\t# scattering albedo\n",
134	colval(salbedo,RED), colval(salbedo,GRN), colval(salbedo,BLU)
135	);
136	printf(
137	"-me %.2e %.2e %.2e\t\t# extinction coefficient\n",
138	colval(cextinction,RED), colval(cextinction,GRN),
139	colval(cextinction,BLU)
140	);
141	printf("-mg %.2f\t\t\t\t# scattering eccentricity\n", seccg);
142	#if NIX
143	/* Multiprocessing on NIX only; so tuff luck, Windoze Weenies! */
144	printf("-n %d\t\t\t\t\t# number of parallel processes\n", nproc);
145	#endif
146	printf("-t %-9d\t\t\t\t# time between reports\n", photonRepTime);
147	printf(verbose
148	? "-v+\t\t\t\t\t# verbose console output\n"
149	: "-v-\t\t\t\t\t# terse console output\n"
150	);
151	}
152
153
154	int main (int argc, char* argv [])
155	{
156	#define check(ol, al) if ( \
157	argv [i][ol] \|\| badarg(argc - i - 1,argv + i + 1, al) \
158	) goto badopt
159
160	/* Evaluate boolean option, setting var accordingly */
161	#define check_bool(olen, var) switch (argv [i][olen]) { \
162	case '\0': \
163	var = !var; break; \
164	case 'y': case 'Y': case 't': case 'T': case '+': case '1': \
165	var = 1; break; \
166	case 'n': case 'N': case 'f': case 'F': case '-': case '0': \
167	var = 0; break; \
168	default: \
169	goto badopt; \
170	}
171
172	/* Evaluate trinary option, setting bits v1 and v2 in var accordingly */
173	#define check_tri(olen, v1, v2, var) switch (argv [i][olen]) { \
174	case '\0': case '+': \
175	var = v1; break; \
176	case '-': \
177	var = v2; break;\
178	case '0': \
179	var = v1 \| v2; break; \
180	default: \
181	goto badopt; \
182	}
183
184	int loadflags = IO_CHECK \| IO_SCENE \| IO_TREE \| IO_BOUNDS,
185	rval, i, j, n;
186	char portLp = photonPortList, sensLp = photonSensorList,
187	**amblp = NULL, sbuf [MAXSTR], portFlags [2] = "\0\0";
188	struct stat pmstat;
189
190	/* Global program name */
191	progname = fixargv0(argv [0]);
192	/* Initialize object types */
193	initotypes();
194
195	/* Parse options */
196	for (i = 1; i < argc; i++) {
197	/* Eggs-pand arguments */
198	while ((rval = expandarg(&argc, &argv, i)))
199	if (rval < 0) {
200	sprintf(errmsg, "cannot eggs-pand '%s'", argv [i]);
201	error(SYSTEM, errmsg);
202	}
203
204	if (argv[i] == NULL)
205	break;
206
207	if (!strcmp(argv [i], "-version")) {
208	puts(VersionID);
209	quit(0);
210	}
211
212	if (!strcmp(argv [i], "-defaults") \|\| !strcmp(argv [i], "-help")) {
213	printdefaults();
214	quit(0);
215	}
216
217	/* Get octree */
218	if (i == argc - 1) {
219	octname = argv [i];
220	break;
221	}
222
223	switch (argv [i][1]) {
224	case 'a': /* Ambient */
225	switch (argv [i][2]) {
226	case 'i': /* Ambient include */
227	case 'I':
228	check(3, "s");
229	if (ambincl != 1) {
230	ambincl = 1;
231	amblp = amblist;
232	}
233	if (isupper(argv [i][2])) {
234	/* Add modifiers from file */
235	rval = wordfile(
236	amblp, AMBLLEN - (amblp - amblist),
237	getpath(argv [++i], getrlibpath(), R_OK)
238	);
239	if (rval < 0) {
240	sprintf(
241	errmsg, "cannot open ambient include file \"%s\"",
242	argv [i]
243	);
244	error(SYSTEM, errmsg);
245	}
246	amblp += rval;
247	}
248	else {
249	/* Add modifier from next arg */
250	*amblp++ = savqstr(argv [++i]);
251	*amblp = NULL;
252	}
253	break;
254
255	case 'e': /* Ambient exclude */
256	case 'E':
257	check(3, "s");
258	if (ambincl != 0) {
259	ambincl = 0;
260	amblp = amblist;
261	}
262	if (isupper(argv [i][2])) {
263	/* Add modifiers from file */
264	rval = wordfile(
265	amblp, AMBLLEN - (amblp - amblist),
266	getpath(argv [++i], getrlibpath(), R_OK)
267	);
268	if (rval < 0) {
269	sprintf(
270	errmsg, "cannot open ambient exclude file \"%s\"",
271	argv [i]
272	);
273	error(SYSTEM, errmsg);
274	}
275	amblp += rval;
276	}
277	else {
278	/* Add modifier from next arg */
279	*amblp++ = savqstr(argv [++i]);
280	*amblp = NULL;
281	}
282	break;
283
284	case 'p': /* Pmap-specific */
285	switch (argv [i][3]) {
286	case 'g': /* Global photon map */
287	check(4, "ss");
288	globalPmapParams.fileName = argv [++i];
289	globalPmapParams.distribTarget =
290	parseMultiplier(argv [++i]);
291	if (!globalPmapParams.distribTarget)
292	goto badopt;
293	globalPmapParams.minGather =
294	globalPmapParams.maxGather = 0;
295	break;
296
297	case 'p': /* Precomputed global photon map */
298	check(4, "ssi");
299	preCompPmapParams.fileName = argv [++i];
300	preCompPmapParams.distribTarget =
301	parseMultiplier(argv [++i]);
302	if (!preCompPmapParams.distribTarget)
303	goto badopt;
304	preCompPmapParams.minGather =
305	preCompPmapParams.maxGather = atoi(argv [++i]);
306	if (!preCompPmapParams.maxGather)
307	goto badopt;
308	break;
309
310	case 'c': /* Caustic photon map */
311	check(4, "ss");
312	causticPmapParams.fileName = argv [++i];
313	causticPmapParams.distribTarget =
314	parseMultiplier(argv [++i]);
315	if (!causticPmapParams.distribTarget)
316	goto badopt;
317	break;
318
319	case 'v': /* Volume photon map */
320	check(4, "ss");
321	volumePmapParams.fileName = argv [++i];
322	volumePmapParams.distribTarget =
323	parseMultiplier(argv [++i]);
324	if (!volumePmapParams.distribTarget)
325	goto badopt;
326	break;
327
328	case 'd': /* Direct photon map */
329	check(4, "ss");
330	directPmapParams.fileName = argv [++i];
331	directPmapParams.distribTarget =
332	parseMultiplier(argv [++i]);
333	if (!directPmapParams.distribTarget)
334	goto badopt;
335	break;
336
337	case 'C': /* Contribution photon map */
338	check(4, "ss");
339	contribPmapParams.fileName = argv [++i];
340	contribPmapParams.distribTarget =
341	parseMultiplier(argv [++i]);
342	if (!contribPmapParams.distribTarget)
343	goto badopt;
344	break;
345
346	case 'D': /* Predistribution factor */
347	check(4, "f");
348	preDistrib = atof(argv [++i]);
349	if (preDistrib <= 0)
350	error(USER, "predistrib factor must be > 0");
351	break;
352
353	case 'M': /* Max predistribution passes */
354	check(4, "i");
355	maxPreDistrib = atoi(argv [++i]);
356	if (maxPreDistrib <= 0)
357	error(USER, "max predistrib passes must be > 0");
358	break;
359
360	#if 1
361	/* Kept for backwards compat, to be phased out by -lr */
362	case 'm': /* Max photon bounces */
363	check(4, "i");
364	photonMaxBounce = atol(argv [++i]);
365	if (photonMaxBounce <= 0)
366	error(USER, "max photon bounces must be > 0");
367	break;
368	#endif
369
370	#ifdef PMAP_EKSPERTZ
371	case 'i': /* Add rectangular region of interest */
372	case 'I': /* Add spherical region of interest */
373	check(4, isupper(argv [j=i][3]) ? "ffff" : "ffffff");
374	n = pmapNumROI;
375
376	pmapROI = realloc(
377	pmapROI, ++pmapNumROI * sizeof(PhotonMapROI)
378	);
379	if (!pmapROI)
380	error(SYSTEM, "failed to allocate ROI");
381
382	pmapROI [n].pos [0] = atof(argv [++i]);
383	pmapROI [n].pos [1] = atof(argv [++i]);
384	pmapROI [n].pos [2] = atof(argv [++i]);
385	pmapROI [n].siz [0] = atof(argv [++i]);
386
387	if (isupper(argv [j][3])) {
388	/* Spherical ROI; radius^2 */
389	pmapROI [n].siz [0] *= pmapROI [n].siz [0];
390	PMAP_ROI_SETSPHERE(pmapROI + n);
391	if (pmapROI [n].siz [0] <= FTINY)
392	error(
393	USER,
394	"region of interest has invalid radius"
395	);
396	}
397	else {
398	/* Rectangular ROI */
399	pmapROI [n].siz [1] = atof(argv [++i]);
400	pmapROI [n].siz [2] = atof(argv [++i]);
401
402	for (j = 0; j < 3; j++) {
403	/* Pos at rectangle centre, siz symmetric */
404	pmapROI [n].pos [j] = 0.5 * (
405	pmapROI [n].pos [j] + pmapROI [n].siz [j]
406	);
407	pmapROI [n].siz [j] = fabs(
408	pmapROI [n].siz [j] - pmapROI [n].pos [j]
409	);
410	if (pmapROI [n].siz [j] <= FTINY)
411	error(
412	USER,
413	"region of interest has invalid size"
414	);
415	}
416	}
417	break;
418	#endif
419
420	case 'P': /* Global photon precomp ratio */
421	check(4, "f");
422	finalGather = atof(argv [++i]);
423	if (finalGather <= 0 \|\| finalGather > 1)
424	error(
425	USER, "global photon precomputation ratio "
426	"must be in range ]0, 1]"
427	);
428	break;
429
430	case 'o': /* Photon port */
431	case 'O':
432	/* Check for bad arg and length, taking into account
433	* default forward orientation if none specified, in
434	* order to maintain previous behaviour */
435	check(argv [i][4] ? 5 : 4, "s");
436	/* Get port orientation flags */
437	check_tri(
438	4, PMAP_PORTFWD, PMAP_PORTBWD, portFlags [0]
439	);
440
441	if (isupper(argv [i][3])) {
442	/* Add port modifiers from file */
443	rval = wordfile(
444	portLp, MAXSET - (portLp - photonPortList),
445	getpath(argv [++i], getrlibpath(), R_OK)
446	);
447	if (rval < 0) {
448	sprintf(
449	errmsg, "cannot open photon port file %s",
450	argv [i]
451	);
452	error(SYSTEM, errmsg);
453	}
454	/* HACK: append port orientation flags to every
455	* modifier; note this requires reallocation */
456	for (; rval--; portLp++) {
457	j = strlen(*portLp);
458	if (!(portLp = realloc(portLp, j + 2))) {
459	sprintf(
460	errmsg,
461	"cannot allocate photon port modifiers"
462	" from file %s", argv [i]
463	);
464	error(SYSTEM, errmsg);
465	}
466	strcat(*portLp, portFlags);
467	}
468	}
469	else {
470	/* Append port flags to port modifier, add to
471	* port list and mark of end list with NULL */
472	strcpy(sbuf, argv [++i]);
473	strcat(sbuf, portFlags);
474	*portLp++ = savqstr(sbuf);
475	*portLp = NULL;
476	}
477	break;
478
479	case 'r': /* Random seed */
480	check(4, "i");
481	randSeed = atoi(argv [++i]);
482	break;
483
484	case 's': /* Antimatter sensor */
485	case 'S':
486	check(4, "s");
487	if (isupper(argv[i][3])) {
488	/* Add sensor modifiers from file */
489	rval = wordfile(
490	sensLp, MAXSET - (sensLp - photonSensorList),
491	getpath(argv [++i], getrlibpath(), R_OK)
492	);
493	if (rval < 0) {
494	sprintf(
495	errmsg,
496	"cannot open antimatter sensor file %s",
497	argv [i]
498	);
499	error(SYSTEM, errmsg);
500	}
501	sensLp += rval;
502	}
503	else {
504	/* Append modifier to sensor list, mark end with
505	* NULL */
506	*sensLp++ = savqstr(argv [++i]);
507	*sensLp = NULL;
508	}
509	break;
510
511	default: goto badopt;
512	}
513	break;
514
515	default: goto badopt;
516	}
517	break;
518
519	case 'b': /* Back face visibility */
520	if (argv [i][2] == 'v') {
521	check_bool(3, backvis);
522	}
523	else goto badopt;
524	break;
525
526	case 'd': /* Direct */
527	switch (argv [i][2]) {
528	case 'p': /* PDF samples */
529	check(3, "f");
530	pdfSamples = atof(argv [++i]);
531	break;
532
533	case 's': /* Source partition size ratio */
534	check(3, "f");
535	srcsizerat = atof(argv [++i]);
536	break;
537
538	default: goto badopt;
539	}
540	break;
541
542	case 'e': /* Diagnostics file */
543	check(2, "s");
544	diagFile = argv [++i];
545	break;
546
547	case 'f': /* Force overwrite */
548	if (argv [i][2] == 'o') {
549	check_bool(3, clobber);
550	}
551	else goto badopt;
552	break;
553
554	#ifdef PMAP_EKSPERTZ
555	case 'l': /* Limits */
556	switch (argv [i][2]) {
557	case 'd': /* Limit photon path distance */
558	check(3, "f");
559	photonMaxDist = atof(argv [++i]);
560	if (photonMaxDist <= 0)
561	error(USER, "max photon distance must be > 0");
562	break;
563
564	case 'r': /* Limit photon bounces */
565	check(3, "i");
566	photonMaxBounce = atol(argv [++i]);
567	if (photonMaxBounce <= 0)
568	error(USER, "max photon bounces must be > 0");
569	break;
570
571	default: goto badopt;
572	}
573	break;
574	#endif
575
576	case 'm': /* Medium */
577	switch (argv[i][2]) {
578	case 'e': /* Eggs-tinction coefficient */
579	check(3, "fff");
580	setcolor(
581	cextinction, atof(argv [i + 1]),
582	atof(argv [i + 2]), atof(argv [i + 3])
583	);
584	i += 3;
585	break;
586
587	case 'a': /* Albedo */
588	check(3, "fff");
589	setcolor(
590	salbedo, atof(argv [i + 1]),
591	atof(argv [i + 2]), atof(argv [i + 3])
592	);
593	i += 3;
594	break;
595
596	case 'g': /* Scattering eccentricity */
597	check(3, "f");
598	seccg = atof(argv [++i]);
599	break;
600
601	default: goto badopt;
602	}
603	break;
604
605	#if NIX
606	case 'n': /* Num parallel processes (NIX only) */
607	check(2, "i");
608	nproc = atoi(argv [++i]);
609
610	if (nproc > PMAP_MAXPROC) {
611	nproc = PMAP_MAXPROC;
612	sprintf(
613	errmsg, "too many parallel processes, clamping to %d\n",
614	nproc
615	);
616	error(WARNING, errmsg);
617	}
618	break;
619	#endif
620
621	case 't': /* Timer */
622	check(2, "i");
623	photonRepTime = atoi(argv [++i]);
624	break;
625
626	case 'v': /* Verbosity */
627	check_bool(2, verbose);
628	break;
629
630	#ifdef EVALDRC_HACK
631	case 'A': /* Angular source file */
632	check(2,"s");
633	angsrcfile = argv[++i];
634	break;
635	#endif
636
637	default: goto badopt;
638	}
639	}
640
641	/* Open diagnostics file */
642	if (diagFile) {
643	if (!freopen(diagFile, "a", stderr))
644	quit(2);
645	fprintf(stderr, "************\n* PID %5d: ", getpid());
646	printargs(argc, argv, stderr);
647	putc('\n', stderr);
648	fflush(stderr);
649	}
650
651	#ifdef NICE
652	/* Lower priority */
653	nice(NICE);
654	#endif
655
656	if (octname == NULL)
657	error(USER, "missing octree argument");
658
659	/* Allocate photon maps and set parameters */
660	for (i = 0; i < NUM_PMAP_TYPES; i++) {
661	setPmapParam(photonMaps + i, pmapParams + i);
662
663	/* Don't overwrite existing photon map unless clobbering enabled */
664	if (
665	photonMaps [i] && !stat(photonMaps [i] -> fileName, &pmstat) &&
666	!clobber
667	) {
668	sprintf(
669	errmsg, "photon map file %s exists, not overwritten",
670	photonMaps [i] -> fileName
671	);
672	error(USER, errmsg);
673	}
674	}
675
676	for (i = 0; i < NUM_PMAP_TYPES && !photonMaps [i]; i++);
677	if (i >= NUM_PMAP_TYPES)
678	error(USER, "no photon maps specified");
679
680	readoct(octname, loadflags, &thescene, NULL);
681	#ifdef EVALDRC_HACK
682	if (angsrcfile)
683	readobj(angsrcfile); /* load angular sources */
684	#endif
685	nsceneobjs = nobjects;
686
687	/* Get sources */
688	marksources();
689
690	/* Do forward pass and build photon maps */
691	if (contribPmap)
692	/* Just build contrib pmap, ignore others */
693	distribPhotonContrib(contribPmap, nproc);
694	else
695	distribPhotons(photonMaps, nproc);
696
697	/* Save photon maps; no idea why GCC needs an explicit cast here... */
698	savePmaps((const PhotonMap**)photonMaps, argc, argv);
699	cleanUpPmaps(photonMaps);
700
701	quit(0);
702
703	badopt:
704	sprintf(errmsg, "command line error at '%s'", argv[i]);
705	error(USER, errmsg);
706
707	#undef check
708	#undef check_bool
709	return 0;
710	}
711