src/px/pfilt.c

/* Copyright (c) 1992 Regents of the University of California */

#ifndef lint
static char SCCSid[] = "$SunId$ LBL";
#endif

/*
 *  pfilt.c - program to post-process picture file.
 *
 *     9/26/85
 *     6/23/93  Added additional buffers for value spreading
 */

#include  "standard.h"

#include  <signal.h>

#include  "color.h"

#include  "resolu.h"

#include  "paths.h"

extern float  *matchlamp();

#define  FEQ(a,b)       ((a) >= .98*(b) && (a) <= 1.02*(b))

double   CHECKRAD = 1.5;        /* radius to check for filtering */

#define  THRESHRAD      5.0     /* maximum sample spread in output */

COLOR  exposure = WHTCOLOR;     /* exposure for the frame */

double  rad = 0.0;              /* output pixel radius for filtering */

double  thresh = 0.0;           /* maximum contribution for subpixel */

int  nrows = 0;                 /* number of rows for output */
int  ncols = 0;                 /* number of columns for output */

double  x_c = 1.0;              /* ratio of output x size to input */
double  y_r = 1.0;              /* ratio of output y size to input */

int  singlepass = 0;            /* true means skip first pass */

int  avghot = 0;                /* true means average in bright spots */

double  hotlvl = 100.0;         /* level considered "hot" */

int  npts = 0;                  /* (half) number of points for stars */

double  spread = 1e-4;          /* spread for star points */

char  *tfname = NULL;

char  template[] = TEMPLATE;

char  *lampdat = "lamp.tab";    /* lamp data file */

int  order;                     /* scanline ordering of input */
int  xres, yres;                /* resolution of input */
double  inpaspect = 1.0;        /* pixel aspect ratio of input */
int  correctaspect = 0;         /* aspect ratio correction? */

int  wrongformat = 0;

int  xrad;                      /* x search radius */
int  yrad;                      /* y search radius */
int  xbrad;                     /* x box size */
int  ybrad;                     /* y box size */

int  barsize;                   /* size of input scan bar */
COLOR  **scanin;                /* input scan bar */
COLOR  *scanout;                /* output scan line */
COLOR  **scoutbar;              /* output scan bar (if thresh > 0) */
float  **greybar;               /* grey-averaged input values */
int  obarsize = 0;              /* size of output scan bar */
int  orad = 0;                  /* output window radius */

char  *progname;


main(argc, argv)
int  argc;
char  **argv;
{
        extern long  ftell();
        extern int  quit(), headline();
        FILE  *fin;
        float  *lampcolor;
        char  *lamptype = NULL;
        long  fpos;
        double  outaspect = 0.0;
        double  d;
        int  i, j;
#ifdef MSDOS
        extern int  _fmode;
        _fmode = O_BINARY;
        setmode(fileno(stdin), O_BINARY);
        setmode(fileno(stdout), O_BINARY);
#endif
        if (signal(SIGINT, quit) == SIG_IGN)
                signal(SIGINT, SIG_IGN);
        if (signal(SIGHUP, quit) == SIG_IGN)
                signal(SIGHUP, SIG_IGN);
        signal(SIGTERM, quit);
        signal(SIGPIPE, quit);
#ifdef  SIGXCPU
        signal(SIGXCPU, quit);
        signal(SIGXFSZ, quit);
#endif

        progname = argv[0] = fixargv0(argv[0]);

        for (i = 1; i < argc; i++)
                if (argv[i][0] == '-')
                        switch (argv[i][1]) {
                        case 'x':
                                i++;
                                if (argv[i][0] == '/') {
                                        x_c = 1.0/atof(argv[i]+1);
                                        ncols = 0;
                                } else
                                        ncols = atoi(argv[i]);
                                break;
                        case 'y':
                                i++;
                                if (argv[i][0] == '/') {
                                        y_r = 1.0/atof(argv[i]+1);
                                        nrows = 0;
                                } else
                                        nrows = atoi(argv[i]);
                                break;
                        case 'c':
                                correctaspect = !correctaspect;
                                break;
                        case 'p':
                                i++;
                                outaspect = atof(argv[i]);
                                break;
                        case 'e':
                                if (argv[i+1][0] == '+' || argv[i+1][0] == '-')
                                        d = pow(2.0, atof(argv[i+1]));
                                else
                                        d = atof(argv[i+1]);
                                if (d < 1e-20 || d > 1e20) {
                                        fprintf(stderr,
                                                "%s: exposure out of range\n",
                                                        argv[0]);
                                        exit(1);
                                }
                                switch (argv[i][2]) {
                                case '\0':
                                        scalecolor(exposure, d);
                                        break;
                                case 'r':
                                        colval(exposure,RED) *= d;
                                        break;
                                case 'g':
                                        colval(exposure,GRN) *= d;
                                        break;
                                case 'b':
                                        colval(exposure,BLU) *= d;
                                        break;
                                default:
                                        goto badopt;
                                }
                                i++;
                                break;
                        case 'f':
                                lampdat = argv[++i];
                                break;
                        case 't':
                                lamptype = argv[++i];
                                break;
                        case '1':
                                singlepass = 1;
                                break;
                        case '2':
                                singlepass = 0;
                                break;
                        case 'n':
                                npts = atoi(argv[++i]) / 2;
                                break;
                        case 's':
                                spread = atof(argv[++i]);
                                break;
                        case 'a':
                                avghot = !avghot;
                                break;
                        case 'h':
                                hotlvl = atof(argv[++i]);
                                break;
                        case 'r':
                                rad = atof(argv[++i]);
                                break;
                        case 'm':
                                thresh = atof(argv[++i]);
                                if (rad <= FTINY)
                                        rad = 1.0;
                                break;
                        case 'b':
                                rad = thresh = 0.0;
                                break;
                        default:;
                        badopt:
                                fprintf(stderr, "%s: unknown option: %s\n",
                                                progname, argv[i]);
                                quit(1);
                                break;
                        }
                else
                        break;
                                        /* get lamp data (if necessary) */
        if (lamptype != NULL) {
                if (loadlamps(lampdat) < 0)
                        quit(1);
                if ((lampcolor = matchlamp(lamptype)) == NULL) {
                        fprintf(stderr, "%s: unknown lamp type\n", lamptype);
                        quit(1);
                }
                for (i = 0; i < 3; i++)
                        if (lampcolor[i] > 1e-4)
                                colval(exposure,i) /= lampcolor[i];
                freelamps();
        }
                                        /* open input file */
        if (i == argc) {
                if (singlepass)
                        fin = stdin;
                else {
                        tfname = mktemp(template);
                        if ((fin = fopen(tfname, "w+")) == NULL) {
                                fprintf(stderr, "%s: can't create ", progname);
                                fprintf(stderr, "temp file \"%s\"\n", tfname);
                                quit(1);
                        }
                        copyfile(stdin, fin);
                        if (fseek(fin, 0L, 0) == -1) {
                                fprintf(stderr, "%s: seek fail\n", progname);
                                quit(1);
                        }
                }
        } else if (i == argc-1) {
                if ((fin = fopen(argv[i], "r")) == NULL) {
                        fprintf(stderr, "%s: can't open file \"%s\"\n",
                                                progname, argv[i]);
                        quit(1);
                }
        } else {
                fprintf(stderr, "%s: bad # file arguments\n", progname);
                quit(1);
        }
                                        /* get header */
        getheader(fin, headline, NULL);
        if (wrongformat) {
                fprintf(stderr, "%s: input must be a Radiance picture\n",
                                progname);
                quit(1);
        }
                                        /* add new header info. */
        printargs(i, argv, stdout);
                                        /* get picture size */
        if ((order = fgetresolu(&xres, &yres, fin)) < 0) {
                fprintf(stderr, "%s: bad picture size\n", progname);
                quit(1);
        }
        if (!(order & YMAJOR))
                inpaspect = 1.0/inpaspect;
                                        /* compute output resolution */
        if (ncols <= 0)
                ncols = x_c*xres + .5;
        if (nrows <= 0)
                nrows = y_r*yres + .5;
        if (outaspect > .01) {
                d = inpaspect * yres/xres / outaspect;
                if (d * ncols > nrows)
                        ncols = nrows / d;
                else
                        nrows = ncols * d;
        }
        x_c = (double)ncols/xres;
        y_r = (double)nrows/yres;

        if (singlepass) {               /* skip exposure, etc. */
                pass1default();
                pass2(fin);
                quit(0);
        }

        fpos = ftell(fin);              /* save input file position */
        
        pass1(fin);

        if (fseek(fin, fpos, 0) == -1) {
                fprintf(stderr, "%s: seek fail\n", progname);
                quit(1);
        }
        pass2(fin);

        quit(0);
}


headline(s)                             /* process line from header */
char  *s;
{
        char  fmt[32];

        fputs(s, stdout);               /* copy to output */
        if (isaspect(s))                /* get aspect ratio */
                inpaspect *= aspectval(s);
        else if (isexpos(s))
                hotlvl *= exposval(s);
        else if (isformat(s)) {
                formatval(fmt, s);
                wrongformat = strcmp(fmt, COLRFMT);
        }
}


copyfile(in, out)                       /* copy a file */
register FILE  *in, *out;
{
        register int  c;

        while ((c = getc(in)) != EOF)
                putc(c, out);

        if (ferror(out)) {
                fprintf(stderr, "%s: write error in copyfile\n", progname);
                quit(1);
        }
}


pass1(in)                               /* first pass of picture file */
FILE  *in;
{
        int  i;
        COLOR  *scan;

        pass1init();

        scan = (COLOR *)malloc(xres*sizeof(COLOR));
        if (scan == NULL) {
                fprintf(stderr, "%s: out of memory\n", progname);
                quit(1);
        }
        for (i = 0; i < yres; i++) {
                if (freadscan(scan, xres, in) < 0) {
                        nrows = (long)nrows * i / yres; /* adjust frame */
                        if (nrows <= 0) {
                                fprintf(stderr, "%s: empty frame\n", progname);
                                quit(1);
                        }
                        fprintf(stderr, "%s: warning - partial frame (%d%%)\n",
                                        progname, (int)(100L*i/yres));
                        yres = i;
                        y_r = (double)nrows/yres;
                        break;
                }
                pass1scan(scan, i);
        }
        free((char *)scan);
}


pass2(in)                       /* last pass on file, write to stdout */
FILE  *in;
{
        int  yread;
        int  ycent, xcent;
        int  r, c;
        
        pass2init();
        scan2init();
        yread = 0;
        for (r = 0; r < nrows; r++) {
                ycent = (long)r*yres/nrows;
                while (yread <= ycent+yrad) {
                        if (yread < yres) {
                                if (freadscan(scanin[yread%barsize],
                                                xres, in) < 0) {
                                        fprintf(stderr,
                                                "%s: bad read (y=%d)\n",
                                                progname, yres-1-yread);
                                        quit(1);
                                }
                                pass2scan(scanin[yread%barsize], yread);
                        }
                        yread++;
                }
                if (obarsize > 0)
                        scan2sync(r);
                for (c = 0; c < ncols; c++) {
                        xcent = (long)c*xres/ncols;
                        if (thresh > FTINY)
                                dothresh(xcent, ycent, c, r);
                        else if (rad > FTINY)
                                dogauss(scanout[c], xcent, ycent, c, r);
                        else
                                dobox(scanout[c], xcent, ycent, c, r);
                }
                if (scanout != NULL && fwritescan(scanout, ncols, stdout) < 0) {
                        fprintf(stderr, "%s: write error in pass2\n", progname);
                        quit(1);
                }
        }
                                        /* skip leftover input */
        while (yread < yres) {
                if (freadscan(scanin[0], xres, in) < 0)
                        break;
                yread++;
        }
        scan2flush();                   /* flush output */
}


scan2init()                     /* prepare scanline arrays */
{
        COLOR   ctmp;
        double  d;
        register int  i;

        xbrad = xres/ncols/2 + 1;
        ybrad = yres/nrows/2 + 1;
        if (rad > FTINY) {
                if (nrows >= yres && ncols >= xres)
                        rad *= (y_r + x_c)/2.0;

                if (thresh > FTINY) {
                        xrad = CHECKRAD*THRESHRAD*rad/x_c + xbrad;
                        yrad = CHECKRAD*THRESHRAD*rad/y_r + ybrad;
                        orad = CHECKRAD*THRESHRAD*rad + 1;
                        obarsize = 2*orad + 1;
                } else {
                        xrad = CHECKRAD*rad/x_c + 1;
                        yrad = CHECKRAD*rad/y_r + 1;
                }
                initmask();             /* initialize filter table */
        } else {
                xrad = xbrad;
                yrad = ybrad;
        }
        barsize = 2*yrad + 1;
        scanin = (COLOR **)malloc(barsize*sizeof(COLOR *));
        if (scanin == NULL)
                goto memerr;
        for (i = 0; i < barsize; i++) {
                scanin[i] = (COLOR *)malloc(xres*sizeof(COLOR));
                if (scanin[i] == NULL)
                        goto memerr;
        }
        if (obarsize > 0) {
                scoutbar = (COLOR **)malloc(obarsize*sizeof(COLOR *));
                greybar = (float **)malloc(obarsize*sizeof(float *));
                if (scoutbar == NULL | greybar == NULL)
                        goto memerr;
                for (i = 0; i < obarsize; i++) {
                        scoutbar[i] = (COLOR *)malloc(ncols*sizeof(COLOR));
                        greybar[i] = (float *)malloc(ncols*sizeof(float));
                        if (scoutbar[i] == NULL | greybar[i] == NULL)
                                goto memerr;
                }
        } else {
                scanout = (COLOR *)malloc(ncols*sizeof(COLOR));
                if (scanout == NULL)
                        goto memerr;
        }
                                        /* record pixel aspect ratio */
        if (!correctaspect) {
                d = order & YMAJOR ? x_c/y_r : y_r/x_c ;
                if (!FEQ(d,1.0))
                        fputaspect(d, stdout);
        }
                                        /* record exposure */
        d = bright(exposure);
        if (!FEQ(d,1.0))
                fputexpos(d, stdout);
                                        /* record color correction */
        copycolor(ctmp, exposure);
        scalecolor(ctmp, 1.0/d);
        if (!FEQ(colval(ctmp,RED),colval(ctmp,GRN)) ||
                        !FEQ(colval(ctmp,GRN),colval(ctmp,BLU)))
                fputcolcor(ctmp, stdout);
        printf("\n");
                                        /* write out resolution */
        fputresolu(order, ncols, nrows, stdout);
        return;
memerr:
        fprintf(stderr, "%s: out of memory\n", progname);
        quit(1);
}


scan2sync(r)                    /* synchronize grey averages and output scan */
int  r;
{
        static int  nextrow = 0;
        COLOR  ctmp;
        int  ybot;
        register int  c;
                                        /* average input scanlines */
        while (nextrow < r+orad && nextrow < nrows) {
                ybot = (long)nextrow*yres/nrows;
                for (c = 0; c < ncols; c++) {
                        dobox(ctmp, (int)((long)c*xres/ncols),ybot, c,nextrow);
                        greybar[nextrow%obarsize][c] = bright(ctmp);
                }
                                        /* and zero output scanline */
                bzero((char *)scoutbar[nextrow%obarsize], ncols*sizeof(COLOR));
                nextrow++;
        }
                                        /* point to top scanline for output */
        if (r-orad >= 0)
                scanout = scoutbar[(r-orad)%obarsize];
        else
                scanout = NULL;
}


scan2flush()                    /* flush output buffer */
{
        register int  r;

        for (r = nrows-orad; r < nrows; r++)
                if (fwritescan(scoutbar[r%obarsize], ncols, stdout) < 0)
                        break;
        if (fflush(stdout) < 0) {
                fprintf(stderr, "%s: write error at end of pass2\n", progname);
                exit(1);
        }
}


quit(code)              /* remove temporary file and exit */
int  code;
{
        if (tfname != NULL)
                unlink(tfname);
        exit(code);
}
Revision:	2.11
Committed:	Tue Sep 21 10:55:54 1993 UTC (30 years, 7 months ago) by greg
Content type:	text/plain
Branch:	MAIN
Changes since 2.10:	+4 -2 lines
Log Message:	minor bug fixes
#	Content
1	/* Copyright (c) 1992 Regents of the University of California */
2
3	#ifndef lint
4	static char SCCSid[] = "$SunId$ LBL";
5	#endif
6
7	/*
8	* pfilt.c - program to post-process picture file.
9	*
10	* 9/26/85
11	* 6/23/93 Added additional buffers for value spreading
12	*/
13
14	#include "standard.h"
15
16	#include <signal.h>
17
18	#include "color.h"
19
20	#include "resolu.h"
21
22	#include "paths.h"
23
24	extern float *matchlamp();
25
26	#define FEQ(a,b) ((a) >= .98(b) && (a) <= 1.02(b))
27
28	double CHECKRAD = 1.5; /* radius to check for filtering */
29
30	#define THRESHRAD 5.0 /* maximum sample spread in output */
31
32	COLOR exposure = WHTCOLOR; /* exposure for the frame */
33
34	double rad = 0.0; /* output pixel radius for filtering */
35
36	double thresh = 0.0; /* maximum contribution for subpixel */
37
38	int nrows = 0; /* number of rows for output */
39	int ncols = 0; /* number of columns for output */
40
41	double x_c = 1.0; /* ratio of output x size to input */
42	double y_r = 1.0; /* ratio of output y size to input */
43
44	int singlepass = 0; /* true means skip first pass */
45
46	int avghot = 0; /* true means average in bright spots */
47
48	double hotlvl = 100.0; /* level considered "hot" */
49
50	int npts = 0; /* (half) number of points for stars */
51
52	double spread = 1e-4; /* spread for star points */
53
54	char *tfname = NULL;
55
56	char template[] = TEMPLATE;
57
58	char lampdat = "lamp.tab"; / lamp data file */
59
60	int order; /* scanline ordering of input */
61	int xres, yres; /* resolution of input */
62	double inpaspect = 1.0; /* pixel aspect ratio of input */
63	int correctaspect = 0; /* aspect ratio correction? */
64
65	int wrongformat = 0;
66
67	int xrad; /* x search radius */
68	int yrad; /* y search radius */
69	int xbrad; /* x box size */
70	int ybrad; /* y box size */
71
72	int barsize; /* size of input scan bar */
73	COLOR *scanin; / input scan bar */
74	COLOR scanout; / output scan line */
75	COLOR *scoutbar; / output scan bar (if thresh > 0) */
76	float *greybar; / grey-averaged input values */
77	int obarsize = 0; /* size of output scan bar */
78	int orad = 0; /* output window radius */
79
80	char *progname;
81
82
83	main(argc, argv)
84	int argc;
85	char **argv;
86	{
87	extern long ftell();
88	extern int quit(), headline();
89	FILE *fin;
90	float *lampcolor;
91	char *lamptype = NULL;
92	long fpos;
93	double outaspect = 0.0;
94	double d;
95	int i, j;
96	#ifdef MSDOS
97	extern int _fmode;
98	_fmode = O_BINARY;
99	setmode(fileno(stdin), O_BINARY);
100	setmode(fileno(stdout), O_BINARY);
101	#endif
102	if (signal(SIGINT, quit) == SIG_IGN)
103	signal(SIGINT, SIG_IGN);
104	if (signal(SIGHUP, quit) == SIG_IGN)
105	signal(SIGHUP, SIG_IGN);
106	signal(SIGTERM, quit);
107	signal(SIGPIPE, quit);
108	#ifdef SIGXCPU
109	signal(SIGXCPU, quit);
110	signal(SIGXFSZ, quit);
111	#endif
112
113	progname = argv[0] = fixargv0(argv[0]);
114
115	for (i = 1; i < argc; i++)
116	if (argv[i][0] == '-')
117	switch (argv[i][1]) {
118	case 'x':
119	i++;
120	if (argv[i][0] == '/') {
121	x_c = 1.0/atof(argv[i]+1);
122	ncols = 0;
123	} else
124	ncols = atoi(argv[i]);
125	break;
126	case 'y':
127	i++;
128	if (argv[i][0] == '/') {
129	y_r = 1.0/atof(argv[i]+1);
130	nrows = 0;
131	} else
132	nrows = atoi(argv[i]);
133	break;
134	case 'c':
135	correctaspect = !correctaspect;
136	break;
137	case 'p':
138	i++;
139	outaspect = atof(argv[i]);
140	break;
141	case 'e':
142	if (argv[i+1][0] == '+' \|\| argv[i+1][0] == '-')
143	d = pow(2.0, atof(argv[i+1]));
144	else
145	d = atof(argv[i+1]);
146	if (d < 1e-20 \|\| d > 1e20) {
147	fprintf(stderr,
148	"%s: exposure out of range\n",
149	argv[0]);
150	exit(1);
151	}
152	switch (argv[i][2]) {
153	case '\0':
154	scalecolor(exposure, d);
155	break;
156	case 'r':
157	colval(exposure,RED) *= d;
158	break;
159	case 'g':
160	colval(exposure,GRN) *= d;
161	break;
162	case 'b':
163	colval(exposure,BLU) *= d;
164	break;
165	default:
166	goto badopt;
167	}
168	i++;
169	break;
170	case 'f':
171	lampdat = argv[++i];
172	break;
173	case 't':
174	lamptype = argv[++i];
175	break;
176	case '1':
177	singlepass = 1;
178	break;
179	case '2':
180	singlepass = 0;
181	break;
182	case 'n':
183	npts = atoi(argv[++i]) / 2;
184	break;
185	case 's':
186	spread = atof(argv[++i]);
187	break;
188	case 'a':
189	avghot = !avghot;
190	break;
191	case 'h':
192	hotlvl = atof(argv[++i]);
193	break;
194	case 'r':
195	rad = atof(argv[++i]);
196	break;
197	case 'm':
198	thresh = atof(argv[++i]);
199	if (rad <= FTINY)
200	rad = 1.0;
201	break;
202	case 'b':
203	rad = thresh = 0.0;
204	break;
205	default:;
206	badopt:
207	fprintf(stderr, "%s: unknown option: %s\n",
208	progname, argv[i]);
209	quit(1);
210	break;
211	}
212	else
213	break;
214	/* get lamp data (if necessary) */
215	if (lamptype != NULL) {
216	if (loadlamps(lampdat) < 0)
217	quit(1);
218	if ((lampcolor = matchlamp(lamptype)) == NULL) {
219	fprintf(stderr, "%s: unknown lamp type\n", lamptype);
220	quit(1);
221	}
222	for (i = 0; i < 3; i++)
223	if (lampcolor[i] > 1e-4)
224	colval(exposure,i) /= lampcolor[i];
225	freelamps();
226	}
227	/* open input file */
228	if (i == argc) {
229	if (singlepass)
230	fin = stdin;
231	else {
232	tfname = mktemp(template);
233	if ((fin = fopen(tfname, "w+")) == NULL) {
234	fprintf(stderr, "%s: can't create ", progname);
235	fprintf(stderr, "temp file \"%s\"\n", tfname);
236	quit(1);
237	}
238	copyfile(stdin, fin);
239	if (fseek(fin, 0L, 0) == -1) {
240	fprintf(stderr, "%s: seek fail\n", progname);
241	quit(1);
242	}
243	}
244	} else if (i == argc-1) {
245	if ((fin = fopen(argv[i], "r")) == NULL) {
246	fprintf(stderr, "%s: can't open file \"%s\"\n",
247	progname, argv[i]);
248	quit(1);
249	}
250	} else {
251	fprintf(stderr, "%s: bad # file arguments\n", progname);
252	quit(1);
253	}
254	/* get header */
255	getheader(fin, headline, NULL);
256	if (wrongformat) {
257	fprintf(stderr, "%s: input must be a Radiance picture\n",
258	progname);
259	quit(1);
260	}
261	/* add new header info. */
262	printargs(i, argv, stdout);
263	/* get picture size */
264	if ((order = fgetresolu(&xres, &yres, fin)) < 0) {
265	fprintf(stderr, "%s: bad picture size\n", progname);
266	quit(1);
267	}
268	if (!(order & YMAJOR))
269	inpaspect = 1.0/inpaspect;
270	/* compute output resolution */
271	if (ncols <= 0)
272	ncols = x_c*xres + .5;
273	if (nrows <= 0)
274	nrows = y_r*yres + .5;
275	if (outaspect > .01) {
276	d = inpaspect * yres/xres / outaspect;
277	if (d * ncols > nrows)
278	ncols = nrows / d;
279	else
280	nrows = ncols * d;
281	}
282	x_c = (double)ncols/xres;
283	y_r = (double)nrows/yres;
284
285	if (singlepass) { /* skip exposure, etc. */
286	pass1default();
287	pass2(fin);
288	quit(0);
289	}
290
291	fpos = ftell(fin); /* save input file position */
292
293	pass1(fin);
294
295	if (fseek(fin, fpos, 0) == -1) {
296	fprintf(stderr, "%s: seek fail\n", progname);
297	quit(1);
298	}
299	pass2(fin);
300
301	quit(0);
302	}
303
304
305	headline(s) /* process line from header */
306	char *s;
307	{
308	char fmt[32];
309
310	fputs(s, stdout); /* copy to output */
311	if (isaspect(s)) /* get aspect ratio */
312	inpaspect *= aspectval(s);
313	else if (isexpos(s))
314	hotlvl *= exposval(s);
315	else if (isformat(s)) {
316	formatval(fmt, s);
317	wrongformat = strcmp(fmt, COLRFMT);
318	}
319	}
320
321
322	copyfile(in, out) /* copy a file */
323	register FILE in, out;
324	{
325	register int c;
326
327	while ((c = getc(in)) != EOF)
328	putc(c, out);
329
330	if (ferror(out)) {
331	fprintf(stderr, "%s: write error in copyfile\n", progname);
332	quit(1);
333	}
334	}
335
336
337	pass1(in) /* first pass of picture file */
338	FILE *in;
339	{
340	int i;
341	COLOR *scan;
342
343	pass1init();
344
345	scan = (COLOR )malloc(xressizeof(COLOR));
346	if (scan == NULL) {
347	fprintf(stderr, "%s: out of memory\n", progname);
348	quit(1);
349	}
350	for (i = 0; i < yres; i++) {
351	if (freadscan(scan, xres, in) < 0) {
352	nrows = (long)nrows * i / yres; /* adjust frame */
353	if (nrows <= 0) {
354	fprintf(stderr, "%s: empty frame\n", progname);
355	quit(1);
356	}
357	fprintf(stderr, "%s: warning - partial frame (%d%%)\n",
358	progname, (int)(100L*i/yres));
359	yres = i;
360	y_r = (double)nrows/yres;
361	break;
362	}
363	pass1scan(scan, i);
364	}
365	free((char *)scan);
366	}
367
368
369	pass2(in) /* last pass on file, write to stdout */
370	FILE *in;
371	{
372	int yread;
373	int ycent, xcent;
374	int r, c;
375
376	pass2init();
377	scan2init();
378	yread = 0;
379	for (r = 0; r < nrows; r++) {
380	ycent = (long)r*yres/nrows;
381	while (yread <= ycent+yrad) {
382	if (yread < yres) {
383	if (freadscan(scanin[yread%barsize],
384	xres, in) < 0) {
385	fprintf(stderr,
386	"%s: bad read (y=%d)\n",
387	progname, yres-1-yread);
388	quit(1);
389	}
390	pass2scan(scanin[yread%barsize], yread);
391	}
392	yread++;
393	}
394	if (obarsize > 0)
395	scan2sync(r);
396	for (c = 0; c < ncols; c++) {
397	xcent = (long)c*xres/ncols;
398	if (thresh > FTINY)
399	dothresh(xcent, ycent, c, r);
400	else if (rad > FTINY)
401	dogauss(scanout[c], xcent, ycent, c, r);
402	else
403	dobox(scanout[c], xcent, ycent, c, r);
404	}
405	if (scanout != NULL && fwritescan(scanout, ncols, stdout) < 0) {
406	fprintf(stderr, "%s: write error in pass2\n", progname);
407	quit(1);
408	}
409	}
410	/* skip leftover input */
411	while (yread < yres) {
412	if (freadscan(scanin[0], xres, in) < 0)
413	break;
414	yread++;
415	}
416	scan2flush(); /* flush output */
417	}
418
419
420	scan2init() /* prepare scanline arrays */
421	{
422	COLOR ctmp;
423	double d;
424	register int i;
425
426	xbrad = xres/ncols/2 + 1;
427	ybrad = yres/nrows/2 + 1;
428	if (rad > FTINY) {
429	if (nrows >= yres && ncols >= xres)
430	rad *= (y_r + x_c)/2.0;
431
432	if (thresh > FTINY) {
433	xrad = CHECKRADTHRESHRADrad/x_c + xbrad;
434	yrad = CHECKRADTHRESHRADrad/y_r + ybrad;
435	orad = CHECKRADTHRESHRADrad + 1;
436	obarsize = 2*orad + 1;
437	} else {
438	xrad = CHECKRAD*rad/x_c + 1;
439	yrad = CHECKRAD*rad/y_r + 1;
440	}
441	initmask(); /* initialize filter table */
442	} else {
443	xrad = xbrad;
444	yrad = ybrad;
445	}
446	barsize = 2*yrad + 1;
447	scanin = (COLOR *)malloc(barsizesizeof(COLOR *));
448	if (scanin == NULL)
449	goto memerr;
450	for (i = 0; i < barsize; i++) {
451	scanin[i] = (COLOR )malloc(xressizeof(COLOR));
452	if (scanin[i] == NULL)
453	goto memerr;
454	}
455	if (obarsize > 0) {
456	scoutbar = (COLOR *)malloc(obarsizesizeof(COLOR *));
457	greybar = (float *)malloc(obarsizesizeof(float *));
458	if (scoutbar == NULL \| greybar == NULL)
459	goto memerr;
460	for (i = 0; i < obarsize; i++) {
461	scoutbar[i] = (COLOR )malloc(ncolssizeof(COLOR));
462	greybar[i] = (float )malloc(ncolssizeof(float));
463	if (scoutbar[i] == NULL \| greybar[i] == NULL)
464	goto memerr;
465	}
466	} else {
467	scanout = (COLOR )malloc(ncolssizeof(COLOR));
468	if (scanout == NULL)
469	goto memerr;
470	}
471	/* record pixel aspect ratio */
472	if (!correctaspect) {
473	d = order & YMAJOR ? x_c/y_r : y_r/x_c ;
474	if (!FEQ(d,1.0))
475	fputaspect(d, stdout);
476	}
477	/* record exposure */
478	d = bright(exposure);
479	if (!FEQ(d,1.0))
480	fputexpos(d, stdout);
481	/* record color correction */
482	copycolor(ctmp, exposure);
483	scalecolor(ctmp, 1.0/d);
484	if (!FEQ(colval(ctmp,RED),colval(ctmp,GRN)) \|\|
485	!FEQ(colval(ctmp,GRN),colval(ctmp,BLU)))
486	fputcolcor(ctmp, stdout);
487	printf("\n");
488	/* write out resolution */
489	fputresolu(order, ncols, nrows, stdout);
490	return;
491	memerr:
492	fprintf(stderr, "%s: out of memory\n", progname);
493	quit(1);
494	}
495
496
497	scan2sync(r) /* synchronize grey averages and output scan */
498	int r;
499	{
500	static int nextrow = 0;
501	COLOR ctmp;
502	int ybot;
503	register int c;
504	/* average input scanlines */
505	while (nextrow < r+orad && nextrow < nrows) {
506	ybot = (long)nextrow*yres/nrows;
507	for (c = 0; c < ncols; c++) {
508	dobox(ctmp, (int)((long)c*xres/ncols),ybot, c,nextrow);
509	greybar[nextrow%obarsize][c] = bright(ctmp);
510	}
511	/* and zero output scanline */
512	bzero((char )scoutbar[nextrow%obarsize], ncolssizeof(COLOR));
513	nextrow++;
514	}
515	/* point to top scanline for output */
516	if (r-orad >= 0)
517	scanout = scoutbar[(r-orad)%obarsize];
518	else
519	scanout = NULL;
520	}
521
522
523	scan2flush() /* flush output buffer */
524	{
525	register int r;
526
527	for (r = nrows-orad; r < nrows; r++)
528	if (fwritescan(scoutbar[r%obarsize], ncols, stdout) < 0)
529	break;
530	if (fflush(stdout) < 0) {
531	fprintf(stderr, "%s: write error at end of pass2\n", progname);
532	exit(1);
533	}
534	}
535
536
537	quit(code) /* remove temporary file and exit */
538	int code;
539	{
540	if (tfname != NULL)
541	unlink(tfname);
542	exit(code);
543	}