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/* Copyright (c) 1986 Regents of the University of California */ |
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#ifndef lint |
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static char SCCSid[] = "$SunId$ LBL"; |
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static const char RCSid[] = "$Id$"; |
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#endif |
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/* |
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* p_func.c - routine for procedural patterns. |
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* |
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* 4/8/86 |
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*/ |
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#include "copyright.h" |
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#include "ray.h" |
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#include "func.h" |
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#include "rtotypes.h" |
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/* |
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* A procedural pattern can either be a brightness or a |
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* 0 |
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* n A1 A2 .. |
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* |
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* A spectral function is given as: |
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* |
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* modifier specfunc name |
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* 2+ sval filename xf |
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* 0 |
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* 2+ nmA nmB A3 .. |
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* |
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* Filename is the name of the file where the variable definitions |
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* can be found. The list of real arguments can be accessed by |
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* definitions in the file. The xf is a transformation |
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* to get from the original coordinates to the current coordinates. |
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* For the "specfunc" primitive, sval(nm) is a function of wavelength |
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* and must be defined from nmA to nmB, and should average to 1 over |
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* its range. |
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*/ |
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p_bfunc(m, r) /* compute brightness pattern */ |
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register OBJREC *m; |
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RAY *r; |
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int |
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p_bfunc( /* compute brightness pattern */ |
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OBJREC *m, |
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RAY *r |
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) |
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{ |
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extern double varvalue(); |
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extern int errno; |
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double bval; |
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register char **sa; |
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MFUNC *mf; |
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setfunc(m, r); |
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sa = m->oargs.sarg; |
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if (m->oargs.nsargs < 2) |
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objerror(m, USER, "bad # arguments"); |
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funcfile(sa[1]); |
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mf = getfunc(m, 1, 0x1, 0); |
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setfunc(m, r); |
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errno = 0; |
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bval = varvalue(sa[0]); |
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if (errno) { |
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bval = evalue(mf->ep[0]); |
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if ((errno == EDOM) | (errno == ERANGE)) { |
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objerror(m, WARNING, "compute error"); |
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return; |
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return(0); |
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} |
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scalecolor(r->pcol, bval); |
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scalescolor(r->pcol, bval); |
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return(0); |
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} |
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p_cfunc(m, r) /* compute color pattern */ |
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register OBJREC *m; |
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RAY *r; |
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int |
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p_cfunc( /* compute color pattern */ |
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OBJREC *m, |
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RAY *r |
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) |
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{ |
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extern double varvalue(); |
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extern int errno; |
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COLOR cval; |
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register char **sa; |
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SCOLOR scval; |
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MFUNC *mf; |
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if (m->oargs.nsargs < 4) |
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objerror(m, USER, "bad # arguments"); |
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mf = getfunc(m, 3, 0x7, 0); |
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setfunc(m, r); |
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errno = 0; |
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setscolor(scval, evalue(mf->ep[0]), |
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evalue(mf->ep[1]), |
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evalue(mf->ep[2])); |
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if ((errno == EDOM) | (errno == ERANGE)) { |
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objerror(m, WARNING, "compute error"); |
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return(0); |
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} |
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smultscolor(r->pcol, scval); |
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return(0); |
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} |
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sa = m->oargs.sarg; |
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if (m->oargs.nsargs < 4) |
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int |
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p_specfunc( /* compute spectral pattern */ |
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OBJREC *m, |
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RAY *r |
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) |
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{ |
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SCOLOR scsamp; |
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SCOLOR scval; |
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double wl, wlmin, wlmax, wlstep; |
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int ns, i; |
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MFUNC *mf; |
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if ((m->oargs.nsargs < 2) | (m->oargs.nfargs < 2)) |
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objerror(m, USER, "bad # arguments"); |
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funcfile(sa[3]); |
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if (m->oargs.farg[0] < m->oargs.farg[1]) { |
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wlmin = m->oargs.farg[0]; |
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wlmax = m->oargs.farg[1]; |
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} else { |
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wlmin = m->oargs.farg[1]; |
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wlmax = m->oargs.farg[0]; |
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} |
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if (wlmin < WLPART[3]) wlmin = WLPART[3]; |
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if (wlmax > WLPART[0]) wlmax = WLPART[0]; |
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if (wlmin >= wlmax) { |
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objerror(m, WARNING, "incompatible wavelength sampling"); |
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return(0); |
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} |
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wlstep = (wlmax - wlmin)/(double)MAXCSAMP; |
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if (wlstep*(5.*NCSAMP) < WLPART[0] - WLPART[3]) |
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wlstep = (WLPART[0] - WLPART[3])/(5.*NCSAMP); |
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mf = getfunc(m, 1, 0, 0); |
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setfunc(m, r); |
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errno = 0; |
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setcolor(cval, varvalue(sa[0]), |
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varvalue(sa[1]), |
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varvalue(sa[2])); |
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if (errno) { |
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objerror(m, WARNING, "compute error"); |
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return; |
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ns = (wlmax - wlmin)/wlstep + .1; |
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wl = wlmax - .5*wlstep; |
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for (i = ns; i-- > 0; wl -= wlstep) { |
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scsamp[i] = funvalue(m->oargs.sarg[0], 1, &wl); |
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if ((errno == EDOM) | (errno == ERANGE)) { |
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objerror(m, WARNING, "compute error"); |
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return(0); |
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} |
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} |
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multcolor(r->pcol, cval); |
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convertscolor(scval, NCSAMP, WLPART[0], WLPART[3], |
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scsamp, ns, wlmin, wlmax); |
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smultscolor(r->pcol, scval); |
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return(0); |
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} |
