src/util/rcollate.c

#ifndef lint
static const char RCSid[] = "$Id: rcollate.c,v 2.34 2019/11/08 22:12:33 greg Exp $";
#endif
/*
 * Utility to re-order records in a binary or ASCII data file (matrix)
 */

#include <stdlib.h>
#include <ctype.h>
#include "platform.h"
#include "rtio.h"
#include "resolu.h"
#if defined(_WIN32) || defined(_WIN64)
  #undef ftello
  #define       ftello  ftell
  #undef ssize_t
  #define ssize_t       size_t
#else
  #include <sys/mman.h>
#endif

#define MAXLEVELS       16      /* max RxC.. block pairs */

typedef struct {
        void    *mapped;        /* memory-mapped pointer */
        void    *base;          /* pointer to base memory */
        size_t  len;            /* allocated memory length */
} MEMLOAD;              /* file loaded/mapped into memory */

typedef struct {
        int     nw_rec;         /* number of words per record */
        long    nrecs;          /* number of records we found */
        char    *rec[1];        /* record array (extends struct) */
} RECINDEX;

int             warnings = 1;   /* report warnings? */

/* free loaded file */
static void
free_load(MEMLOAD *mp)
{
        if (mp == NULL || (mp->base == NULL) | (mp->len <= 0))
                return;
#ifdef MAP_FILE
        if (mp->mapped)
                munmap(mp->mapped, mp->len);
        else
#endif
                free(mp->base);
        mp->mapped = NULL;
        mp->base = NULL;
        mp->len = 0;
}

/* load memory from an input stream, starting from current position */
static int
load_stream(MEMLOAD *mp, FILE *fp)
{
        size_t  alloced = 0;
        char    buf[8192];
        size_t  nr;

        if (mp == NULL)
                return(-1);
        mp->mapped = NULL;
        mp->base = NULL;
        mp->len = 0;
        if (fp == NULL)
                return(-1);
        while ((nr = fread(buf, 1, sizeof(buf), fp)) > 0) {
                if (!alloced)
                        mp->base = malloc(alloced = nr);
                else if (mp->len+nr > alloced)
                        mp->base = realloc(mp->base,
                                alloced = alloced*(2+(nr==sizeof(buf)))/2+nr);
                if (mp->base == NULL)
                        return(-1);
                memcpy((char *)mp->base + mp->len, buf, nr);
                mp->len += nr;
        }
        if (ferror(fp)) {
                free_load(mp);
                return(-1);
        }
        if (alloced > mp->len*5/4)      /* don't waste too much space */
                mp->base = realloc(mp->base, mp->len);
        return(mp->len > 0);
}

/* load a file into memory */
static int
load_file(MEMLOAD *mp, FILE *fp)
{
        int     fd;
        off_t   skip, flen, fpos;

#if defined(_WIN32) || defined(_WIN64)
                                /* too difficult to fix this */
        return load_stream(mp, fp);
#endif
        if (mp == NULL)
                return(-1);
        mp->mapped = NULL;
        mp->base = NULL;
        mp->len = 0;
        if (fp == NULL)
                return(-1);
        fd = fileno(fp);
        skip = ftello(fp);
        flen = lseek(fd, 0, SEEK_END);
        if (flen <= skip)
                return((int)(flen - skip));
        mp->len = (size_t)(flen - skip);
#ifdef MAP_FILE
        if (mp->len > 1L<<20) {         /* map file if > 1 MByte */
                mp->mapped = mmap(NULL, flen, PROT_READ, MAP_PRIVATE, fd, 0);
                if (mp->mapped != MAP_FAILED) {
                        mp->base = (char *)mp->mapped + skip;
                        return(1);      /* mmap() success */
                }
                mp->mapped = NULL;      /* else fall back to reading it in... */
        }
#endif
        if (lseek(fd, skip, SEEK_SET) != skip ||
                        (mp->base = malloc(mp->len)) == NULL) {
                mp->len = 0;
                return(-1);
        }
        fpos = skip;
        while (fpos < flen) {           /* read() fails if n > 2 GBytes */
                ssize_t nread = read(fd, (char *)mp->base+(fpos-skip),
                                (flen-fpos < 1L<<24) ? flen-fpos : 1L<<24);
                if (nread <= 0) {
                        free_load(mp);
                        return(-1);
                }
                fpos += nread;
        }
        return(1);
}

/* free a record index */
#define free_records(rp)        free(rp)

/* compute record index */
static RECINDEX *
index_records(const MEMLOAD *mp, int nw_rec)
{
        int             nall = 0;
        RECINDEX        *rp;
        char            *cp, *mend;
        int             n;

        if (mp == NULL || (mp->base == NULL) | (mp->len <= 0))
                return(NULL);
        if (nw_rec <= 0)
                return(NULL);
        nall = 1000;
        rp = (RECINDEX *)malloc(sizeof(RECINDEX) + nall*sizeof(char *));
        if (rp == NULL)
                return(NULL);
        rp->nw_rec = nw_rec;
        rp->nrecs = 0;
        cp = (char *)mp->base;
        mend = cp + mp->len;
        for ( ; ; ) {                           /* whitespace-separated words */
                while (cp < mend && !*cp | isspace(*cp))
                        ++cp;
                if (cp >= mend)
                        break;
                if (rp->nrecs >= nall) {
                        nall += nall>>1;        /* get more record space */
                        rp = (RECINDEX *)realloc(rp,
                                        sizeof(RECINDEX) + nall*sizeof(char *));
                        if (rp == NULL)
                                return(NULL);
                }
                rp->rec[rp->nrecs++] = cp;      /* point to first non-white */
                n = rp->nw_rec;
                while (++cp < mend)             /* find end of record */
                        if (!*cp | isspace(*cp)) {
                                if (--n <= 0)
                                        break;  /* got requisite # words */
                                do {            /* else find next word */
                                        if (*cp == '\n') {
                                                fprintf(stderr,
                                                "Unexpected EOL in record!\n");
                                                free_records(rp);
                                                return(NULL);
                                        }
                                        if (++cp >= mend)
                                                break;
                                } while (!*cp | isspace(*cp));
                        }
        }
        rp->rec[rp->nrecs] = mend;              /* reallocate to save space */
        rp = (RECINDEX *)realloc(rp,
                        sizeof(RECINDEX) + rp->nrecs*sizeof(char *));
        return(rp);
}

/* count number of columns based on first EOL */
static int
count_columns(const RECINDEX *rp)
{
        char    *cp = rp->rec[0];
        char    *mend = rp->rec[rp->nrecs];
        int     i;

        while (*cp != '\n')
                if (++cp >= mend)
                        return(0);
        for (i = 0; i < rp->nrecs; i++)
                if (rp->rec[i] >= cp)
                        break;
        return(i);
}

/* copy nth record from index to stdout */
static int
print_record(const RECINDEX *rp, long n)
{
        int     words2go = rp->nw_rec;
        char    *scp;

        if ((n < 0) | (n >= rp->nrecs))
                return(0);
        scp = rp->rec[n];
        do {
                putc(*scp++, stdout);
                if (!*scp | isspace(*scp)) {
                        if (--words2go <= 0)
                                break;
                        putc(' ', stdout);      /* single space btwn. words */
                        do
                                if (++scp >= rp->rec[n+1])
                                        break;
                        while (!*scp | isspace(*scp));
                }
        } while (scp < rp->rec[n+1]);
                                                /* caller adds record sep. */
        return(1);
}

/* copy a stream to stdout */
static int
output_stream(FILE *fp)
{
        char    buf[8192];
        ssize_t n;

        if (fp == NULL)
                return(0);
        fflush(stdout);
        while ((n = fread(buf, 1, sizeof(buf), fp)) > 0)
                if (write(fileno(stdout), buf, n) != n)
                        return(0);
        return(!ferror(fp));
}

/* get next word from stream, leaving stream on EOL or start of next word */
static char *
fget_word(char buf[256], FILE *fp)
{
        int     c;
        char    *cp;
                                        /* skip nul's and white space */
        while (!(c = getc(fp)) || isspace(c))
                ;
        if (c == EOF)
                return(NULL);
        cp = buf;
        do
                *cp++ = c;
        while ((c = getc(fp)) != EOF && !isspace(c) && cp < buf+255);
        *cp = '\0';
        while (isspace(c) & (c != '\n'))
                c = getc(fp);
        if (c != EOF)
                ungetc(c, fp);
        return(buf);
}

char            *fmtid = NULL;                  /* format id */
int             comp_size = 0;                  /* binary bytes/channel */
int             n_comp = 0;                     /* components/record */
int             ni_columns = 0;                 /* number of input columns */
int             ni_rows = 0;                    /* number of input rows */
int             no_columns = 0;                 /* number of output columns */
int             no_rows = 0;                    /* number of output rows */
int             transpose = 0;                  /* transpose rows & cols? */
int             i_header = 1;                   /* input header? */
int             o_header = 1;                   /* output header? */
int             outArray[MAXLEVELS][2];         /* output block nesting */
int             outLevels = 0;                  /* number of blocking levels */

/* parse RxCx... string */
static int
get_array(const char *spec, int blklvl[][2], int nlvls)
{
        int     n;

        if (nlvls <= 0) {
                fputs("Too many block levels!\n", stderr);
                exit(1);
        }
        if (sscanf(spec, "%dx%d", &blklvl[0][0], &blklvl[0][1]) != 2) {
                fputs("Bad block specification!\n", stderr);
                exit(1);
        }
        while (isdigit(*spec))
                spec++;
        spec++;         /* 'x' */
        while (isdigit(*spec))
                spec++;
        if ((*spec != 'x') & (*spec != 'X')) {
                if (*spec) {
                        fputs("Blocks must be separated by 'x' or 'X'\n", stderr);
                        exit(1);
                }
                return(1);
        }
        spec++;
        n = get_array(spec, blklvl+1, nlvls-1);
        if (!n)
                return(0);
        blklvl[0][0] *= blklvl[1][0];
        blklvl[0][1] *= blklvl[1][1];
        return(n+1);
}

/* check settings and assign defaults */
static int
check_sizes()
{
        if (fmtid == NULL) {
                fmtid = "ascii";
        } else if (!comp_size) {
                if (!strcmp(fmtid, "float"))
                        comp_size = sizeof(float);
                else if (!strcmp(fmtid, "double"))
                        comp_size = sizeof(double);
                else if (!strcmp(fmtid, "byte"))
                        comp_size = 1;
                else if (strcmp(fmtid, "ascii")) {
                        fprintf(stderr, "Unsupported format: %s\n", fmtid);
                        return(0);
                }
        }
        if (transpose && (no_rows <= 0) & (no_columns <= 0)) {
                if (ni_rows > 0) no_columns = ni_rows;
                if (ni_columns > 0) no_rows = ni_columns;
        } else if ((no_rows <= 0) & (no_columns > 0) &&
                        !((ni_rows*ni_columns) % no_columns))
                no_rows = ni_rows*ni_columns/no_columns;
        if (n_comp <= 0)
                n_comp = 3;
        return(1);
}

/* call to compute block input position */
static long
get_block_pos(int r, int c, int blklvl[][2], int nlvls)
{
        long    n = 0;

        while (nlvls > 1) {
                int     sr = r/blklvl[1][0];
                int     sc = c/blklvl[1][1];
                r -= sr*blklvl[1][0];
                c -= sc*blklvl[1][1];
                n += sr*blklvl[1][0]*blklvl[0][1] + sc*blklvl[1][0]*blklvl[1][1];
                blklvl++;
                nlvls--;
        }
        n += r*blklvl[0][1] + c;
        return(n);
}

/* return input offset based on array ordering and transpose option */
static long
get_input_pos(int r, int c)
{
        long    n;

        if (outLevels > 1) {            /* block reordering */
                n = get_block_pos(r, c, outArray, outLevels);
                if (transpose) {
                        r = n/ni_rows;
                        c = n - r*ni_rows;
                        n = (long)c*ni_columns + r;
                }
        } else if (transpose)           /* transpose only */
                n = (long)c*ni_columns + r;
        else                            /* XXX should never happen! */
                n = (long)r*no_columns + c;
        return(n);
}

/* output reordered ASCII or binary data from memory */
static int
do_reorder(const MEMLOAD *mp)
{
        static const char       tabEOL[2] = {'\t','\n'};
        RECINDEX                *rp = NULL;
        long                    nrecords;
        int                     i, j;
                                                /* propogate sizes */
        if (ni_rows <= 0)
                ni_rows = no_columns;
        if (ni_columns <= 0)
                ni_columns = no_rows;
                                                /* get # records (& index) */
        if (!comp_size) {
                if ((rp = index_records(mp, n_comp)) == NULL)
                        return(0);
                if (ni_columns <= 0)
                        ni_columns = count_columns(rp);
                nrecords = rp->nrecs;
        } else if ((ni_rows > 0) & (ni_columns > 0)) {
                nrecords = ni_rows*ni_columns;
                if (nrecords > mp->len/(n_comp*comp_size)) {
                        fputs("Input too small for specified size and type\n",
                                        stderr);
                        return(0);
                }
        } else
                nrecords = mp->len/(n_comp*comp_size);
                                                /* check sizes */
        if ((ni_rows <= 0) & (ni_columns > 0))
                ni_rows = nrecords/ni_columns;
        if ((ni_columns <= 0) & (ni_rows > 0))
                ni_columns = nrecords/ni_rows;
        if (nrecords != ni_rows*ni_columns)
                goto badspec;
        if (transpose) {
                if (no_columns <= 0)
                        no_columns = ni_rows;
                if (no_rows <= 0)
                        no_rows = ni_columns;
                if (outLevels <= 1 &&
                                (no_rows != ni_columns) | (no_columns != ni_rows))
                        goto badspec;
        } else {
                if (no_columns <= 0)
                        no_columns = ni_columns;
                if (no_rows <= 0)
                        no_rows = ni_rows;
        }
        if (ni_rows*ni_columns != no_rows*no_columns) {
                fputs("Number of input and output records do not match\n",
                                stderr);
                return(0);
        }
                                                /* reorder records */
        for (i = 0; i < no_rows; i++) {
            for (j = 0; j < no_columns; j++) {
                long    n = get_input_pos(i, j);
                if (n >= nrecords) {
                        fputs("Index past end-of-file\n", stderr);
                        return(0);
                }
                if (rp != NULL) {               /* ASCII output */
                        print_record(rp, n);
                        putc(tabEOL[j >= no_columns-1], stdout);
                } else {                        /* binary output */
                        putbinary((char *)mp->base + (n_comp*comp_size)*n,
                                        comp_size, n_comp, stdout);
                }
            }
            if (ferror(stdout)) {
                fprintf(stderr, "Error writing to stdout\n");
                return(0);
            }
        }
        if (rp != NULL)
                free_records(rp);
        return(1);
badspec:
        fprintf(stderr, "Bad dimension(s)\n");
        return(0);
}

/* resize ASCII stream input by ignoring EOLs between records */
static int
do_resize(FILE *fp)
{
        long    records2go = ni_rows*ni_columns;
        int     columns2go = no_columns;
        char    word[256];
                                                /* sanity checks */
        if (comp_size || (no_columns == ni_columns) & (no_rows == ni_rows))
                return(output_stream(fp));      /* no-op -- just copy */
        if (no_columns <= 0) {
                fprintf(stderr, "Missing -oc specification\n");
                return(0);
        }
        if ((records2go <= 0) & (no_rows > 0))
                records2go = no_rows*no_columns;
        else if (no_rows*no_columns != records2go) {
                fprintf(stderr,
                        "Input and output data sizes disagree (%dx%d != %dx%d)\n",
                                ni_rows, ni_columns, no_rows, no_columns);
                return(0);
        }
        do {                                    /* reshape records */
                int     n;

                for (n = n_comp; n--; ) {
                        if (fget_word(word, fp) == NULL) {
                                if (records2go > 0 || n < n_comp-1)
                                        break;
                                goto done;      /* normal EOD */
                        }
                        fputs(word, stdout);
                        if (n) {                /* mid-record? */
                                int     c = getc(fp);
                                if ((c == '\n') | (c == EOF))
                                        break;
                                ungetc(c, fp);
                                putc(' ', stdout);
                        }
                }
                if (n >= 0) {
                        fprintf(stderr, "Incomplete record / unexpected EOF\n");
                        return(0);
                }
                if (--columns2go <= 0) {        /* time to end output row? */
                        putc('\n', stdout);
                        columns2go = no_columns;
                } else                          /* else separate records */
                        putc('\t', stdout);
        } while (--records2go);                 /* expected EOD? */
done:
        if (warnings && columns2go != no_columns)
                fprintf(stderr, "Warning -- incomplete final row\n");
        if (warnings && fget_word(word, fp) != NULL)
                fprintf(stderr, "Warning -- characters beyond expected EOD\n");
        return(1);
}

/* process a header line and copy to stdout */
static int
headline(char *s, void *p)
{
        static char     fmt[MAXFMTLEN];
        int             n;

        if (formatval(fmt, s)) {
                if (fmtid == NULL) {
                        fmtid = fmt;
                        return(0);
                }
                if (!strcmp(fmt, fmtid))
                        return(0);
                fprintf(stderr, "Input format '%s' != '%s'\n", fmt, fmtid);
                return(-1);
        }
        if (!strncmp(s, "NROWS=", 6)) {
                n = atoi(s+6);
                if ((ni_rows > 0) & (n != ni_rows)) {
                        fputs("Incorrect input row count\n", stderr);
                        return(-1);
                }
                ni_rows = n;
                return(0);
        }
        if (!strncmp(s, "NCOLS=", 6)) {
                n = atoi(s+6);
                if ((ni_columns > 0) & (n != ni_columns)) {
                        fputs("Incorrect input column count\n", stderr);
                        return(-1);
                }
                ni_columns = n;
                return(0);
        }
        if (!strncmp(s, "NCOMP=", 6)) {
                n = atoi(s+6);
                if ((n_comp > 0) & (n != n_comp)) {
                        fputs("Incorrect number of components\n", stderr);
                        return(-1);
                }
                n_comp = n;
                return(0);
        }
        if (o_header)
                fputs(s, stdout);               /* copy header info. */
        return(0);
}

/* main routine for converting rows/columns in data file */
int
main(int argc, char *argv[])
{
        int     a;

        for (a = 1; a < argc && argv[a][0] == '-'; a++)
                switch (argv[a][1]) {
                case 'i':                       /* input */
                        if (argv[a][2] == 'c')  /* columns */
                                ni_columns = atoi(argv[++a]);
                        else if (argv[a][2] == 'r')
                                ni_rows = atoi(argv[++a]);
                        else
                                goto userr;
                        break;
                case 'o':                       /* output */
                        if (argv[a][2] == 'c')  /* columns */
                                no_columns = atoi(argv[++a]);
                        else if (argv[a][2] == 'r')
                                no_rows = atoi(argv[++a]);
                        else if (argv[a][2] ||
                          !(outLevels=get_array(argv[++a], outArray, MAXLEVELS)))
                                goto userr;
                        break;
                case 'h':                       /* turn off header */
                        switch (argv[a][2]) {
                        case 'i':
                                i_header = 0;
                                break;
                        case 'o':
                                o_header = 0;
                                break;
                        case '\0':
                                i_header = o_header = 0;
                                break;
                        default:
                                goto userr;
                        }
                        break;
                case 't':                       /* transpose on/off */
                        transpose = !transpose;
                        break;
                case 'f':                       /* format */
                        switch (argv[a][2]) {
                        case 'a':               /* ASCII */
                        case 'A':
                                fmtid = "ascii";
                                comp_size = 0;
                                break;
                        case 'f':               /* float */
                        case 'F':
                                fmtid = "float";
                                comp_size = sizeof(float);
                                break;
                        case 'd':               /* double */
                        case 'D':
                                fmtid = "double";
                                comp_size = sizeof(double);
                                break;
                        case 'b':               /* binary (bytes) */
                        case 'B':
                                fmtid = "byte";
                                comp_size = 1;
                                break;
                        default:
                                goto userr;
                        }
                        if (argv[a][3]) {
                                if (!isdigit(argv[a][3]))
                                        goto userr;
                                n_comp = atoi(argv[a]+3);
                        } else
                                n_comp = 1;
                        break;
                case 'w':                       /* warnings on/off */
                        warnings = !warnings;
                        break;
                default:
                        goto userr;
                }
        if (a < argc-1)                         /* arg count OK? */
                goto userr;
        if (outLevels) {                        /* should check consistency? */
                no_rows = outArray[0][0];
                no_columns = outArray[0][1];
        }
                                                /* open input file? */
        if (a == argc-1 && freopen(argv[a], "r", stdin) == NULL) {
                fprintf(stderr, "%s: cannot open for reading\n", argv[a]);
                return(1);
        }
        if (comp_size) {
                SET_FILE_BINARY(stdin);
                SET_FILE_BINARY(stdout);
        }
                                                /* check for no-op */
        if (!transpose & (outLevels <= 1) & (i_header == o_header) &&
                        (no_columns == ni_columns) & (no_rows == ni_rows)) {
                if (warnings)
                        fprintf(stderr, "%s: no-op -- copying input verbatim\n",
                                argv[0]);
                if (!output_stream(stdin))
                        return(1);
                return(0);
        }
        if (i_header) {                         /* read header */
                if (getheader(stdin, headline, NULL) < 0)
                        return(1);
                if (!check_sizes())
                        return(1);
                if (comp_size) {                /* a little late... */
                        SET_FILE_BINARY(stdin);
                        SET_FILE_BINARY(stdout);
                }
        } else if (!check_sizes())
                return(1);
        if (o_header) {                         /* write/add to header */
                if (!i_header)
                        newheader("RADIANCE", stdout);
                printargs(a, argv, stdout);
                if (no_rows > 0)
                        printf("NROWS=%d\n", no_rows);
                if (no_columns > 0)
                        printf("NCOLS=%d\n", no_columns);
                printf("NCOMP=%d\n", n_comp);
                fputformat(fmtid, stdout);
                fputc('\n', stdout);            /* finish new header */
        }
        if (transpose | (outLevels > 1)) {      /* moving stuff around? */
                MEMLOAD myMem;                  /* need to map into memory */
                if (a == argc-1) {
                        if (load_file(&myMem, stdin) <= 0) {
                                fprintf(stderr, "%s: error loading file into memory\n",
                                                argv[a]);
                                return(1);
                        }
                } else if (load_stream(&myMem, stdin) <= 0) {
                        fprintf(stderr, "%s: error loading stdin into memory\n",
                                                argv[0]);
                        return(1);
                }
                if (!do_reorder(&myMem))
                        return(1);
                /* free_load(&myMem);   about to exit, so don't bother */
        } else if (!do_resize(stdin))           /* reshaping input */
                return(1);
        return(0);
userr:
        fprintf(stderr,
"Usage: %s [-h[io]][-w][-f[afdb][N]][-t][-ic in_col][-ir in_row][-oc out_col][-or out_row][-o RxC[xR1xC1..]] [input.dat]\n",
                        argv[0]);
        return(1);
}
Revision:	2.35
Committed:	Sat Dec 28 18:05:14 2019 UTC (5 years, 10 months ago) by greg
Content type:	text/plain
Branch:	MAIN
CVS Tags:	rad5R3
Changes since 2.34:	+1 -2 lines
Log Message:	Removed redundant include files
#	Content
1	#ifndef lint
2	static const char RCSid[] = "$Id: rcollate.c,v 2.34 2019/11/08 22:12:33 greg Exp $";
3	#endif
4	/*
5	* Utility to re-order records in a binary or ASCII data file (matrix)
6	*/
7
8	#include <stdlib.h>
9	#include <ctype.h>
10	#include "platform.h"
11	#include "rtio.h"
12	#include "resolu.h"
13	#if defined(_WIN32) \|\| defined(_WIN64)
14	#undef ftello
15	#define ftello ftell
16	#undef ssize_t
17	#define ssize_t size_t
18	#else
19	#include <sys/mman.h>
20	#endif
21
22	#define MAXLEVELS 16 /* max RxC.. block pairs */
23
24	typedef struct {
25	void mapped; / memory-mapped pointer */
26	void base; / pointer to base memory */
27	size_t len; /* allocated memory length */
28	} MEMLOAD; /* file loaded/mapped into memory */
29
30	typedef struct {
31	int nw_rec; /* number of words per record */
32	long nrecs; /* number of records we found */
33	char rec[1]; / record array (extends struct) */
34	} RECINDEX;
35
36	int warnings = 1; /* report warnings? */
37
38	/* free loaded file */
39	static void
40	free_load(MEMLOAD *mp)
41	{
42	if (mp == NULL \|\| (mp->base == NULL) \| (mp->len <= 0))
43	return;
44	#ifdef MAP_FILE
45	if (mp->mapped)
46	munmap(mp->mapped, mp->len);
47	else
48	#endif
49	free(mp->base);
50	mp->mapped = NULL;
51	mp->base = NULL;
52	mp->len = 0;
53	}
54
55	/* load memory from an input stream, starting from current position */
56	static int
57	load_stream(MEMLOAD mp, FILE fp)
58	{
59	size_t alloced = 0;
60	char buf[8192];
61	size_t nr;
62
63	if (mp == NULL)
64	return(-1);
65	mp->mapped = NULL;
66	mp->base = NULL;
67	mp->len = 0;
68	if (fp == NULL)
69	return(-1);
70	while ((nr = fread(buf, 1, sizeof(buf), fp)) > 0) {
71	if (!alloced)
72	mp->base = malloc(alloced = nr);
73	else if (mp->len+nr > alloced)
74	mp->base = realloc(mp->base,
75	alloced = alloced*(2+(nr==sizeof(buf)))/2+nr);
76	if (mp->base == NULL)
77	return(-1);
78	memcpy((char *)mp->base + mp->len, buf, nr);
79	mp->len += nr;
80	}
81	if (ferror(fp)) {
82	free_load(mp);
83	return(-1);
84	}
85	if (alloced > mp->len5/4) / don't waste too much space */
86	mp->base = realloc(mp->base, mp->len);
87	return(mp->len > 0);
88	}
89
90	/* load a file into memory */
91	static int
92	load_file(MEMLOAD mp, FILE fp)
93	{
94	int fd;
95	off_t skip, flen, fpos;
96
97	#if defined(_WIN32) \|\| defined(_WIN64)
98	/* too difficult to fix this */
99	return load_stream(mp, fp);
100	#endif
101	if (mp == NULL)
102	return(-1);
103	mp->mapped = NULL;
104	mp->base = NULL;
105	mp->len = 0;
106	if (fp == NULL)
107	return(-1);
108	fd = fileno(fp);
109	skip = ftello(fp);
110	flen = lseek(fd, 0, SEEK_END);
111	if (flen <= skip)
112	return((int)(flen - skip));
113	mp->len = (size_t)(flen - skip);
114	#ifdef MAP_FILE
115	if (mp->len > 1L<<20) { /* map file if > 1 MByte */
116	mp->mapped = mmap(NULL, flen, PROT_READ, MAP_PRIVATE, fd, 0);
117	if (mp->mapped != MAP_FAILED) {
118	mp->base = (char *)mp->mapped + skip;
119	return(1); /* mmap() success */
120	}
121	mp->mapped = NULL; /* else fall back to reading it in... */
122	}
123	#endif
124	if (lseek(fd, skip, SEEK_SET) != skip \|\|
125	(mp->base = malloc(mp->len)) == NULL) {
126	mp->len = 0;
127	return(-1);
128	}
129	fpos = skip;
130	while (fpos < flen) { /* read() fails if n > 2 GBytes */
131	ssize_t nread = read(fd, (char *)mp->base+(fpos-skip),
132	(flen-fpos < 1L<<24) ? flen-fpos : 1L<<24);
133	if (nread <= 0) {
134	free_load(mp);
135	return(-1);
136	}
137	fpos += nread;
138	}
139	return(1);
140	}
141
142	/* free a record index */
143	#define free_records(rp) free(rp)
144
145	/* compute record index */
146	static RECINDEX *
147	index_records(const MEMLOAD *mp, int nw_rec)
148	{
149	int nall = 0;
150	RECINDEX *rp;
151	char cp, mend;
152	int n;
153
154	if (mp == NULL \|\| (mp->base == NULL) \| (mp->len <= 0))
155	return(NULL);
156	if (nw_rec <= 0)
157	return(NULL);
158	nall = 1000;
159	rp = (RECINDEX )malloc(sizeof(RECINDEX) + nallsizeof(char *));
160	if (rp == NULL)
161	return(NULL);
162	rp->nw_rec = nw_rec;
163	rp->nrecs = 0;
164	cp = (char *)mp->base;
165	mend = cp + mp->len;
166	for ( ; ; ) { /* whitespace-separated words */
167	while (cp < mend && !cp \| isspace(cp))
168	++cp;
169	if (cp >= mend)
170	break;
171	if (rp->nrecs >= nall) {
172	nall += nall>>1; /* get more record space */
173	rp = (RECINDEX *)realloc(rp,
174	sizeof(RECINDEX) + nallsizeof(char ));
175	if (rp == NULL)
176	return(NULL);
177	}
178	rp->rec[rp->nrecs++] = cp; /* point to first non-white */
179	n = rp->nw_rec;
180	while (++cp < mend) /* find end of record */
181	if (!cp \| isspace(cp)) {
182	if (--n <= 0)
183	break; /* got requisite # words */
184	do { /* else find next word */
185	if (*cp == '\n') {
186	fprintf(stderr,
187	"Unexpected EOL in record!\n");
188	free_records(rp);
189	return(NULL);
190	}
191	if (++cp >= mend)
192	break;
193	} while (!cp \| isspace(cp));
194	}
195	}
196	rp->rec[rp->nrecs] = mend; /* reallocate to save space */
197	rp = (RECINDEX *)realloc(rp,
198	sizeof(RECINDEX) + rp->nrecssizeof(char ));
199	return(rp);
200	}
201
202	/* count number of columns based on first EOL */
203	static int
204	count_columns(const RECINDEX *rp)
205	{
206	char *cp = rp->rec[0];
207	char *mend = rp->rec[rp->nrecs];
208	int i;
209
210	while (*cp != '\n')
211	if (++cp >= mend)
212	return(0);
213	for (i = 0; i < rp->nrecs; i++)
214	if (rp->rec[i] >= cp)
215	break;
216	return(i);
217	}
218
219	/* copy nth record from index to stdout */
220	static int
221	print_record(const RECINDEX *rp, long n)
222	{
223	int words2go = rp->nw_rec;
224	char *scp;
225
226	if ((n < 0) \| (n >= rp->nrecs))
227	return(0);
228	scp = rp->rec[n];
229	do {
230	putc(*scp++, stdout);
231	if (!scp \| isspace(scp)) {
232	if (--words2go <= 0)
233	break;
234	putc(' ', stdout); /* single space btwn. words */
235	do
236	if (++scp >= rp->rec[n+1])
237	break;
238	while (!scp \| isspace(scp));
239	}
240	} while (scp < rp->rec[n+1]);
241	/* caller adds record sep. */
242	return(1);
243	}
244
245	/* copy a stream to stdout */
246	static int
247	output_stream(FILE *fp)
248	{
249	char buf[8192];
250	ssize_t n;
251
252	if (fp == NULL)
253	return(0);
254	fflush(stdout);
255	while ((n = fread(buf, 1, sizeof(buf), fp)) > 0)
256	if (write(fileno(stdout), buf, n) != n)
257	return(0);
258	return(!ferror(fp));
259	}
260
261	/* get next word from stream, leaving stream on EOL or start of next word */
262	static char *
263	fget_word(char buf[256], FILE *fp)
264	{
265	int c;
266	char *cp;
267	/* skip nul's and white space */
268	while (!(c = getc(fp)) \|\| isspace(c))
269	;
270	if (c == EOF)
271	return(NULL);
272	cp = buf;
273	do
274	*cp++ = c;
275	while ((c = getc(fp)) != EOF && !isspace(c) && cp < buf+255);
276	*cp = '\0';
277	while (isspace(c) & (c != '\n'))
278	c = getc(fp);
279	if (c != EOF)
280	ungetc(c, fp);
281	return(buf);
282	}
283
284	char fmtid = NULL; / format id */
285	int comp_size = 0; /* binary bytes/channel */
286	int n_comp = 0; /* components/record */
287	int ni_columns = 0; /* number of input columns */
288	int ni_rows = 0; /* number of input rows */
289	int no_columns = 0; /* number of output columns */
290	int no_rows = 0; /* number of output rows */
291	int transpose = 0; /* transpose rows & cols? */
292	int i_header = 1; /* input header? */
293	int o_header = 1; /* output header? */
294	int outArray[MAXLEVELS][2]; /* output block nesting */
295	int outLevels = 0; /* number of blocking levels */
296
297	/* parse RxCx... string */
298	static int
299	get_array(const char *spec, int blklvl[][2], int nlvls)
300	{
301	int n;
302
303	if (nlvls <= 0) {
304	fputs("Too many block levels!\n", stderr);
305	exit(1);
306	}
307	if (sscanf(spec, "%dx%d", &blklvl[0][0], &blklvl[0][1]) != 2) {
308	fputs("Bad block specification!\n", stderr);
309	exit(1);
310	}
311	while (isdigit(*spec))
312	spec++;
313	spec++; /* 'x' */
314	while (isdigit(*spec))
315	spec++;
316	if ((spec != 'x') & (spec != 'X')) {
317	if (*spec) {
318	fputs("Blocks must be separated by 'x' or 'X'\n", stderr);
319	exit(1);
320	}
321	return(1);
322	}
323	spec++;
324	n = get_array(spec, blklvl+1, nlvls-1);
325	if (!n)
326	return(0);
327	blklvl[0][0] *= blklvl[1][0];
328	blklvl[0][1] *= blklvl[1][1];
329	return(n+1);
330	}
331
332	/* check settings and assign defaults */
333	static int
334	check_sizes()
335	{
336	if (fmtid == NULL) {
337	fmtid = "ascii";
338	} else if (!comp_size) {
339	if (!strcmp(fmtid, "float"))
340	comp_size = sizeof(float);
341	else if (!strcmp(fmtid, "double"))
342	comp_size = sizeof(double);
343	else if (!strcmp(fmtid, "byte"))
344	comp_size = 1;
345	else if (strcmp(fmtid, "ascii")) {
346	fprintf(stderr, "Unsupported format: %s\n", fmtid);
347	return(0);
348	}
349	}
350	if (transpose && (no_rows <= 0) & (no_columns <= 0)) {
351	if (ni_rows > 0) no_columns = ni_rows;
352	if (ni_columns > 0) no_rows = ni_columns;
353	} else if ((no_rows <= 0) & (no_columns > 0) &&
354	!((ni_rows*ni_columns) % no_columns))
355	no_rows = ni_rows*ni_columns/no_columns;
356	if (n_comp <= 0)
357	n_comp = 3;
358	return(1);
359	}
360
361	/* call to compute block input position */
362	static long
363	get_block_pos(int r, int c, int blklvl[][2], int nlvls)
364	{
365	long n = 0;
366
367	while (nlvls > 1) {
368	int sr = r/blklvl[1][0];
369	int sc = c/blklvl[1][1];
370	r -= sr*blklvl[1][0];
371	c -= sc*blklvl[1][1];
372	n += srblklvl[1][0]blklvl[0][1] + scblklvl[1][0]blklvl[1][1];
373	blklvl++;
374	nlvls--;
375	}
376	n += r*blklvl[0][1] + c;
377	return(n);
378	}
379
380	/* return input offset based on array ordering and transpose option */
381	static long
382	get_input_pos(int r, int c)
383	{
384	long n;
385
386	if (outLevels > 1) { /* block reordering */
387	n = get_block_pos(r, c, outArray, outLevels);
388	if (transpose) {
389	r = n/ni_rows;
390	c = n - r*ni_rows;
391	n = (long)c*ni_columns + r;
392	}
393	} else if (transpose) /* transpose only */
394	n = (long)c*ni_columns + r;
395	else /* XXX should never happen! */
396	n = (long)r*no_columns + c;
397	return(n);
398	}
399
400	/* output reordered ASCII or binary data from memory */
401	static int
402	do_reorder(const MEMLOAD *mp)
403	{
404	static const char tabEOL[2] = {'\t','\n'};
405	RECINDEX *rp = NULL;
406	long nrecords;
407	int i, j;
408	/* propogate sizes */
409	if (ni_rows <= 0)
410	ni_rows = no_columns;
411	if (ni_columns <= 0)
412	ni_columns = no_rows;
413	/* get # records (& index) */
414	if (!comp_size) {
415	if ((rp = index_records(mp, n_comp)) == NULL)
416	return(0);
417	if (ni_columns <= 0)
418	ni_columns = count_columns(rp);
419	nrecords = rp->nrecs;
420	} else if ((ni_rows > 0) & (ni_columns > 0)) {
421	nrecords = ni_rows*ni_columns;
422	if (nrecords > mp->len/(n_comp*comp_size)) {
423	fputs("Input too small for specified size and type\n",
424	stderr);
425	return(0);
426	}
427	} else
428	nrecords = mp->len/(n_comp*comp_size);
429	/* check sizes */
430	if ((ni_rows <= 0) & (ni_columns > 0))
431	ni_rows = nrecords/ni_columns;
432	if ((ni_columns <= 0) & (ni_rows > 0))
433	ni_columns = nrecords/ni_rows;
434	if (nrecords != ni_rows*ni_columns)
435	goto badspec;
436	if (transpose) {
437	if (no_columns <= 0)
438	no_columns = ni_rows;
439	if (no_rows <= 0)
440	no_rows = ni_columns;
441	if (outLevels <= 1 &&
442	(no_rows != ni_columns) \| (no_columns != ni_rows))
443	goto badspec;
444	} else {
445	if (no_columns <= 0)
446	no_columns = ni_columns;
447	if (no_rows <= 0)
448	no_rows = ni_rows;
449	}
450	if (ni_rowsni_columns != no_rowsno_columns) {
451	fputs("Number of input and output records do not match\n",
452	stderr);
453	return(0);
454	}
455	/* reorder records */
456	for (i = 0; i < no_rows; i++) {
457	for (j = 0; j < no_columns; j++) {
458	long n = get_input_pos(i, j);
459	if (n >= nrecords) {
460	fputs("Index past end-of-file\n", stderr);
461	return(0);
462	}
463	if (rp != NULL) { /* ASCII output */
464	print_record(rp, n);
465	putc(tabEOL[j >= no_columns-1], stdout);
466	} else { /* binary output */
467	putbinary((char )mp->base + (n_compcomp_size)*n,
468	comp_size, n_comp, stdout);
469	}
470	}
471	if (ferror(stdout)) {
472	fprintf(stderr, "Error writing to stdout\n");
473	return(0);
474	}
475	}
476	if (rp != NULL)
477	free_records(rp);
478	return(1);
479	badspec:
480	fprintf(stderr, "Bad dimension(s)\n");
481	return(0);
482	}
483
484	/* resize ASCII stream input by ignoring EOLs between records */
485	static int
486	do_resize(FILE *fp)
487	{
488	long records2go = ni_rows*ni_columns;
489	int columns2go = no_columns;
490	char word[256];
491	/* sanity checks */
492	if (comp_size \|\| (no_columns == ni_columns) & (no_rows == ni_rows))
493	return(output_stream(fp)); /* no-op -- just copy */
494	if (no_columns <= 0) {
495	fprintf(stderr, "Missing -oc specification\n");
496	return(0);
497	}
498	if ((records2go <= 0) & (no_rows > 0))
499	records2go = no_rows*no_columns;
500	else if (no_rows*no_columns != records2go) {
501	fprintf(stderr,
502	"Input and output data sizes disagree (%dx%d != %dx%d)\n",
503	ni_rows, ni_columns, no_rows, no_columns);
504	return(0);
505	}
506	do { /* reshape records */
507	int n;
508
509	for (n = n_comp; n--; ) {
510	if (fget_word(word, fp) == NULL) {
511	if (records2go > 0 \|\| n < n_comp-1)
512	break;
513	goto done; /* normal EOD */
514	}
515	fputs(word, stdout);
516	if (n) { /* mid-record? */
517	int c = getc(fp);
518	if ((c == '\n') \| (c == EOF))
519	break;
520	ungetc(c, fp);
521	putc(' ', stdout);
522	}
523	}
524	if (n >= 0) {
525	fprintf(stderr, "Incomplete record / unexpected EOF\n");
526	return(0);
527	}
528	if (--columns2go <= 0) { /* time to end output row? */
529	putc('\n', stdout);
530	columns2go = no_columns;
531	} else /* else separate records */
532	putc('\t', stdout);
533	} while (--records2go); /* expected EOD? */
534	done:
535	if (warnings && columns2go != no_columns)
536	fprintf(stderr, "Warning -- incomplete final row\n");
537	if (warnings && fget_word(word, fp) != NULL)
538	fprintf(stderr, "Warning -- characters beyond expected EOD\n");
539	return(1);
540	}
541
542	/* process a header line and copy to stdout */
543	static int
544	headline(char s, void p)
545	{
546	static char fmt[MAXFMTLEN];
547	int n;
548
549	if (formatval(fmt, s)) {
550	if (fmtid == NULL) {
551	fmtid = fmt;
552	return(0);
553	}
554	if (!strcmp(fmt, fmtid))
555	return(0);
556	fprintf(stderr, "Input format '%s' != '%s'\n", fmt, fmtid);
557	return(-1);
558	}
559	if (!strncmp(s, "NROWS=", 6)) {
560	n = atoi(s+6);
561	if ((ni_rows > 0) & (n != ni_rows)) {
562	fputs("Incorrect input row count\n", stderr);
563	return(-1);
564	}
565	ni_rows = n;
566	return(0);
567	}
568	if (!strncmp(s, "NCOLS=", 6)) {
569	n = atoi(s+6);
570	if ((ni_columns > 0) & (n != ni_columns)) {
571	fputs("Incorrect input column count\n", stderr);
572	return(-1);
573	}
574	ni_columns = n;
575	return(0);
576	}
577	if (!strncmp(s, "NCOMP=", 6)) {
578	n = atoi(s+6);
579	if ((n_comp > 0) & (n != n_comp)) {
580	fputs("Incorrect number of components\n", stderr);
581	return(-1);
582	}
583	n_comp = n;
584	return(0);
585	}
586	if (o_header)
587	fputs(s, stdout); /* copy header info. */
588	return(0);
589	}
590
591	/* main routine for converting rows/columns in data file */
592	int
593	main(int argc, char *argv[])
594	{
595	int a;
596
597	for (a = 1; a < argc && argv[a][0] == '-'; a++)
598	switch (argv[a][1]) {
599	case 'i': /* input */
600	if (argv[a][2] == 'c') /* columns */
601	ni_columns = atoi(argv[++a]);
602	else if (argv[a][2] == 'r')
603	ni_rows = atoi(argv[++a]);
604	else
605	goto userr;
606	break;
607	case 'o': /* output */
608	if (argv[a][2] == 'c') /* columns */
609	no_columns = atoi(argv[++a]);
610	else if (argv[a][2] == 'r')
611	no_rows = atoi(argv[++a]);
612	else if (argv[a][2] \|\|
613	!(outLevels=get_array(argv[++a], outArray, MAXLEVELS)))
614	goto userr;
615	break;
616	case 'h': /* turn off header */
617	switch (argv[a][2]) {
618	case 'i':
619	i_header = 0;
620	break;
621	case 'o':
622	o_header = 0;
623	break;
624	case '\0':
625	i_header = o_header = 0;
626	break;
627	default:
628	goto userr;
629	}
630	break;
631	case 't': /* transpose on/off */
632	transpose = !transpose;
633	break;
634	case 'f': /* format */
635	switch (argv[a][2]) {
636	case 'a': /* ASCII */
637	case 'A':
638	fmtid = "ascii";
639	comp_size = 0;
640	break;
641	case 'f': /* float */
642	case 'F':
643	fmtid = "float";
644	comp_size = sizeof(float);
645	break;
646	case 'd': /* double */
647	case 'D':
648	fmtid = "double";
649	comp_size = sizeof(double);
650	break;
651	case 'b': /* binary (bytes) */
652	case 'B':
653	fmtid = "byte";
654	comp_size = 1;
655	break;
656	default:
657	goto userr;
658	}
659	if (argv[a][3]) {
660	if (!isdigit(argv[a][3]))
661	goto userr;
662	n_comp = atoi(argv[a]+3);
663	} else
664	n_comp = 1;
665	break;
666	case 'w': /* warnings on/off */
667	warnings = !warnings;
668	break;
669	default:
670	goto userr;
671	}
672	if (a < argc-1) /* arg count OK? */
673	goto userr;
674	if (outLevels) { /* should check consistency? */
675	no_rows = outArray[0][0];
676	no_columns = outArray[0][1];
677	}
678	/* open input file? */
679	if (a == argc-1 && freopen(argv[a], "r", stdin) == NULL) {
680	fprintf(stderr, "%s: cannot open for reading\n", argv[a]);
681	return(1);
682	}
683	if (comp_size) {
684	SET_FILE_BINARY(stdin);
685	SET_FILE_BINARY(stdout);
686	}
687	/* check for no-op */
688	if (!transpose & (outLevels <= 1) & (i_header == o_header) &&
689	(no_columns == ni_columns) & (no_rows == ni_rows)) {
690	if (warnings)
691	fprintf(stderr, "%s: no-op -- copying input verbatim\n",
692	argv[0]);
693	if (!output_stream(stdin))
694	return(1);
695	return(0);
696	}
697	if (i_header) { /* read header */
698	if (getheader(stdin, headline, NULL) < 0)
699	return(1);
700	if (!check_sizes())
701	return(1);
702	if (comp_size) { /* a little late... */
703	SET_FILE_BINARY(stdin);
704	SET_FILE_BINARY(stdout);
705	}
706	} else if (!check_sizes())
707	return(1);
708	if (o_header) { /* write/add to header */
709	if (!i_header)
710	newheader("RADIANCE", stdout);
711	printargs(a, argv, stdout);
712	if (no_rows > 0)
713	printf("NROWS=%d\n", no_rows);
714	if (no_columns > 0)
715	printf("NCOLS=%d\n", no_columns);
716	printf("NCOMP=%d\n", n_comp);
717	fputformat(fmtid, stdout);
718	fputc('\n', stdout); /* finish new header */
719	}
720	if (transpose \| (outLevels > 1)) { /* moving stuff around? */
721	MEMLOAD myMem; /* need to map into memory */
722	if (a == argc-1) {
723	if (load_file(&myMem, stdin) <= 0) {
724	fprintf(stderr, "%s: error loading file into memory\n",
725	argv[a]);
726	return(1);
727	}
728	} else if (load_stream(&myMem, stdin) <= 0) {
729	fprintf(stderr, "%s: error loading stdin into memory\n",
730	argv[0]);
731	return(1);
732	}
733	if (!do_reorder(&myMem))
734	return(1);
735	/* free_load(&myMem); about to exit, so don't bother */
736	} else if (!do_resize(stdin)) /* reshaping input */
737	return(1);
738	return(0);
739	userr:
740	fprintf(stderr,
741	"Usage: %s [-h[io]][-w][-f[afdb][N]][-t][-ic in_col][-ir in_row][-oc out_col][-or out_row][-o RxC[xR1xC1..]] [input.dat]\n",
742	argv[0]);
743	return(1);
744	}