bhyvectl(8): Normalize the man page date

[FreeBSD/FreeBSD.git] / usr.bin / ministat / ministat.c

/*-
 * SPDX-License-Identifier: Beerware
 *
 * ----------------------------------------------------------------------------
 * "THE BEER-WARE LICENSE" (Revision 42):
 * <phk@FreeBSD.ORG> wrote this file.  As long as you retain this notice you
 * can do whatever you want with this stuff. If we meet some day, and you think
 * this stuff is worth it, you can buy me a beer in return.   Poul-Henning Kamp
 * ----------------------------------------------------------------------------
 *
 */

#include <sys/cdefs.h>
__FBSDID("$FreeBSD$");

#include <sys/capsicum.h>
#include <sys/ioctl.h>
#include <sys/queue.h>
#include <sys/ttycom.h>

#include <assert.h>
#include <capsicum_helpers.h>
#include <ctype.h>
#include <err.h>
#include <errno.h>
#include <math.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <unistd.h>

#define NSTUDENT 100
#define NCONF 6
static double const studentpct[] = { 80, 90, 95, 98, 99, 99.5 };
static double const student[NSTUDENT + 1][NCONF] = {
/* inf */       {       1.282,  1.645,  1.960,  2.326,  2.576,  3.090  },
/* 1. */        {       3.078,  6.314,  12.706, 31.821, 63.657, 318.313  },
/* 2. */        {       1.886,  2.920,  4.303,  6.965,  9.925,  22.327  },
/* 3. */        {       1.638,  2.353,  3.182,  4.541,  5.841,  10.215  },
/* 4. */        {       1.533,  2.132,  2.776,  3.747,  4.604,  7.173  },
/* 5. */        {       1.476,  2.015,  2.571,  3.365,  4.032,  5.893  },
/* 6. */        {       1.440,  1.943,  2.447,  3.143,  3.707,  5.208  },
/* 7. */        {       1.415,  1.895,  2.365,  2.998,  3.499,  4.782  },
/* 8. */        {       1.397,  1.860,  2.306,  2.896,  3.355,  4.499  },
/* 9. */        {       1.383,  1.833,  2.262,  2.821,  3.250,  4.296  },
/* 10. */       {       1.372,  1.812,  2.228,  2.764,  3.169,  4.143  },
/* 11. */       {       1.363,  1.796,  2.201,  2.718,  3.106,  4.024  },
/* 12. */       {       1.356,  1.782,  2.179,  2.681,  3.055,  3.929  },
/* 13. */       {       1.350,  1.771,  2.160,  2.650,  3.012,  3.852  },
/* 14. */       {       1.345,  1.761,  2.145,  2.624,  2.977,  3.787  },
/* 15. */       {       1.341,  1.753,  2.131,  2.602,  2.947,  3.733  },
/* 16. */       {       1.337,  1.746,  2.120,  2.583,  2.921,  3.686  },
/* 17. */       {       1.333,  1.740,  2.110,  2.567,  2.898,  3.646  },
/* 18. */       {       1.330,  1.734,  2.101,  2.552,  2.878,  3.610  },
/* 19. */       {       1.328,  1.729,  2.093,  2.539,  2.861,  3.579  },
/* 20. */       {       1.325,  1.725,  2.086,  2.528,  2.845,  3.552  },
/* 21. */       {       1.323,  1.721,  2.080,  2.518,  2.831,  3.527  },
/* 22. */       {       1.321,  1.717,  2.074,  2.508,  2.819,  3.505  },
/* 23. */       {       1.319,  1.714,  2.069,  2.500,  2.807,  3.485  },
/* 24. */       {       1.318,  1.711,  2.064,  2.492,  2.797,  3.467  },
/* 25. */       {       1.316,  1.708,  2.060,  2.485,  2.787,  3.450  },
/* 26. */       {       1.315,  1.706,  2.056,  2.479,  2.779,  3.435  },
/* 27. */       {       1.314,  1.703,  2.052,  2.473,  2.771,  3.421  },
/* 28. */       {       1.313,  1.701,  2.048,  2.467,  2.763,  3.408  },
/* 29. */       {       1.311,  1.699,  2.045,  2.462,  2.756,  3.396  },
/* 30. */       {       1.310,  1.697,  2.042,  2.457,  2.750,  3.385  },
/* 31. */       {       1.309,  1.696,  2.040,  2.453,  2.744,  3.375  },
/* 32. */       {       1.309,  1.694,  2.037,  2.449,  2.738,  3.365  },
/* 33. */       {       1.308,  1.692,  2.035,  2.445,  2.733,  3.356  },
/* 34. */       {       1.307,  1.691,  2.032,  2.441,  2.728,  3.348  },
/* 35. */       {       1.306,  1.690,  2.030,  2.438,  2.724,  3.340  },
/* 36. */       {       1.306,  1.688,  2.028,  2.434,  2.719,  3.333  },
/* 37. */       {       1.305,  1.687,  2.026,  2.431,  2.715,  3.326  },
/* 38. */       {       1.304,  1.686,  2.024,  2.429,  2.712,  3.319  },
/* 39. */       {       1.304,  1.685,  2.023,  2.426,  2.708,  3.313  },
/* 40. */       {       1.303,  1.684,  2.021,  2.423,  2.704,  3.307  },
/* 41. */       {       1.303,  1.683,  2.020,  2.421,  2.701,  3.301  },
/* 42. */       {       1.302,  1.682,  2.018,  2.418,  2.698,  3.296  },
/* 43. */       {       1.302,  1.681,  2.017,  2.416,  2.695,  3.291  },
/* 44. */       {       1.301,  1.680,  2.015,  2.414,  2.692,  3.286  },
/* 45. */       {       1.301,  1.679,  2.014,  2.412,  2.690,  3.281  },
/* 46. */       {       1.300,  1.679,  2.013,  2.410,  2.687,  3.277  },
/* 47. */       {       1.300,  1.678,  2.012,  2.408,  2.685,  3.273  },
/* 48. */       {       1.299,  1.677,  2.011,  2.407,  2.682,  3.269  },
/* 49. */       {       1.299,  1.677,  2.010,  2.405,  2.680,  3.265  },
/* 50. */       {       1.299,  1.676,  2.009,  2.403,  2.678,  3.261  },
/* 51. */       {       1.298,  1.675,  2.008,  2.402,  2.676,  3.258  },
/* 52. */       {       1.298,  1.675,  2.007,  2.400,  2.674,  3.255  },
/* 53. */       {       1.298,  1.674,  2.006,  2.399,  2.672,  3.251  },
/* 54. */       {       1.297,  1.674,  2.005,  2.397,  2.670,  3.248  },
/* 55. */       {       1.297,  1.673,  2.004,  2.396,  2.668,  3.245  },
/* 56. */       {       1.297,  1.673,  2.003,  2.395,  2.667,  3.242  },
/* 57. */       {       1.297,  1.672,  2.002,  2.394,  2.665,  3.239  },
/* 58. */       {       1.296,  1.672,  2.002,  2.392,  2.663,  3.237  },
/* 59. */       {       1.296,  1.671,  2.001,  2.391,  2.662,  3.234  },
/* 60. */       {       1.296,  1.671,  2.000,  2.390,  2.660,  3.232  },
/* 61. */       {       1.296,  1.670,  2.000,  2.389,  2.659,  3.229  },
/* 62. */       {       1.295,  1.670,  1.999,  2.388,  2.657,  3.227  },
/* 63. */       {       1.295,  1.669,  1.998,  2.387,  2.656,  3.225  },
/* 64. */       {       1.295,  1.669,  1.998,  2.386,  2.655,  3.223  },
/* 65. */       {       1.295,  1.669,  1.997,  2.385,  2.654,  3.220  },
/* 66. */       {       1.295,  1.668,  1.997,  2.384,  2.652,  3.218  },
/* 67. */       {       1.294,  1.668,  1.996,  2.383,  2.651,  3.216  },
/* 68. */       {       1.294,  1.668,  1.995,  2.382,  2.650,  3.214  },
/* 69. */       {       1.294,  1.667,  1.995,  2.382,  2.649,  3.213  },
/* 70. */       {       1.294,  1.667,  1.994,  2.381,  2.648,  3.211  },
/* 71. */       {       1.294,  1.667,  1.994,  2.380,  2.647,  3.209  },
/* 72. */       {       1.293,  1.666,  1.993,  2.379,  2.646,  3.207  },
/* 73. */       {       1.293,  1.666,  1.993,  2.379,  2.645,  3.206  },
/* 74. */       {       1.293,  1.666,  1.993,  2.378,  2.644,  3.204  },
/* 75. */       {       1.293,  1.665,  1.992,  2.377,  2.643,  3.202  },
/* 76. */       {       1.293,  1.665,  1.992,  2.376,  2.642,  3.201  },
/* 77. */       {       1.293,  1.665,  1.991,  2.376,  2.641,  3.199  },
/* 78. */       {       1.292,  1.665,  1.991,  2.375,  2.640,  3.198  },
/* 79. */       {       1.292,  1.664,  1.990,  2.374,  2.640,  3.197  },
/* 80. */       {       1.292,  1.664,  1.990,  2.374,  2.639,  3.195  },
/* 81. */       {       1.292,  1.664,  1.990,  2.373,  2.638,  3.194  },
/* 82. */       {       1.292,  1.664,  1.989,  2.373,  2.637,  3.193  },
/* 83. */       {       1.292,  1.663,  1.989,  2.372,  2.636,  3.191  },
/* 84. */       {       1.292,  1.663,  1.989,  2.372,  2.636,  3.190  },
/* 85. */       {       1.292,  1.663,  1.988,  2.371,  2.635,  3.189  },
/* 86. */       {       1.291,  1.663,  1.988,  2.370,  2.634,  3.188  },
/* 87. */       {       1.291,  1.663,  1.988,  2.370,  2.634,  3.187  },
/* 88. */       {       1.291,  1.662,  1.987,  2.369,  2.633,  3.185  },
/* 89. */       {       1.291,  1.662,  1.987,  2.369,  2.632,  3.184  },
/* 90. */       {       1.291,  1.662,  1.987,  2.368,  2.632,  3.183  },
/* 91. */       {       1.291,  1.662,  1.986,  2.368,  2.631,  3.182  },
/* 92. */       {       1.291,  1.662,  1.986,  2.368,  2.630,  3.181  },
/* 93. */       {       1.291,  1.661,  1.986,  2.367,  2.630,  3.180  },
/* 94. */       {       1.291,  1.661,  1.986,  2.367,  2.629,  3.179  },
/* 95. */       {       1.291,  1.661,  1.985,  2.366,  2.629,  3.178  },
/* 96. */       {       1.290,  1.661,  1.985,  2.366,  2.628,  3.177  },
/* 97. */       {       1.290,  1.661,  1.985,  2.365,  2.627,  3.176  },
/* 98. */       {       1.290,  1.661,  1.984,  2.365,  2.627,  3.175  },
/* 99. */       {       1.290,  1.660,  1.984,  2.365,  2.626,  3.175  },
/* 100. */      {       1.290,  1.660,  1.984,  2.364,  2.626,  3.174  }
};

#define MAX_DS  8
static char symbol[MAX_DS] = { ' ', 'x', '+', '*', '%', '#', '@', 'O' };

struct dataset {
        char *name;
        double  *points;
        size_t lpoints;
        double sy, syy;
        size_t n;
};

static struct dataset *
NewSet(void)
{
        struct dataset *ds;

        ds = calloc(1, sizeof *ds);
        assert(ds != NULL);
        ds->lpoints = 100000;
        ds->points = calloc(sizeof *ds->points, ds->lpoints);
        assert(ds->points != NULL);
        ds->syy = NAN;
        return(ds);
}

static void
AddPoint(struct dataset *ds, double a)
{
        double *dp;

        if (ds->n >= ds->lpoints) {
                dp = ds->points;
                ds->lpoints *= 4;
                ds->points = calloc(sizeof *ds->points, ds->lpoints);
                assert(ds->points != NULL);
                memcpy(ds->points, dp, sizeof *dp * ds->n);
                free(dp);
        }
        ds->points[ds->n++] = a;
        ds->sy += a;
}

static double
Min(const struct dataset *ds)
{

        return (ds->points[0]);
}

static double
Max(const struct dataset *ds)
{

        return (ds->points[ds->n -1]);
}

static double
Avg(const struct dataset *ds)
{

        return(ds->sy / ds->n);
}

static double
Median(const struct dataset *ds)
{
        const size_t m = ds->n / 2;

        if ((ds->n % 2) == 0)
                return ((ds->points[m] + (ds->points[m - 1])) / 2);
        return (ds->points[m]);
}

static double
Var(struct dataset *ds)
{
        size_t z;
        const double a = Avg(ds);

        if (isnan(ds->syy)) {
                ds->syy = 0.0;
                for (z = 0; z < ds->n; z++)
                        ds->syy += (ds->points[z] - a) * (ds->points[z] - a);
        }

        return (ds->syy / (ds->n - 1.0));
}

static double
Stddev(struct dataset *ds)
{

        return sqrt(Var(ds));
}

static void
VitalsHead(void)
{

        printf("    N           Min           Max        Median           Avg        Stddev\n");
}

static void
Vitals(struct dataset *ds, int flag)
{

        printf("%c %3zu %13.8g %13.8g %13.8g %13.8g %13.8g", symbol[flag],
            ds->n, Min(ds), Max(ds), Median(ds), Avg(ds), Stddev(ds));
        printf("\n");
}

static void
Relative(struct dataset *ds, struct dataset *rs, int confidx)
{
        double spool, s, d, e, t;
        double re;
        size_t z;

        z = ds->n + rs->n - 2;
        if (z > NSTUDENT)
                t = student[0][confidx];
        else
                t = student[z][confidx];
        spool = (ds->n - 1) * Var(ds) + (rs->n - 1) * Var(rs);
        spool /= ds->n + rs->n - 2;
        spool = sqrt(spool);
        s = spool * sqrt(1.0 / ds->n + 1.0 / rs->n);
        d = Avg(ds) - Avg(rs);
        e = t * s;

        re = (ds->n - 1) * Var(ds) + (rs->n - 1) * Var(rs) *
            (Avg(ds) * Avg(ds)) / (Avg(rs) * Avg(rs));
        re *= (ds->n + rs->n) / (ds->n * rs->n * (ds->n + rs->n - 2.0));
        re = t * sqrt(re);

        if (fabs(d) > e) {
                printf("Difference at %.1f%% confidence\n", studentpct[confidx]);
                printf("        %g +/- %g\n", d, e);
                printf("        %g%% +/- %g%%\n", d * 100 / Avg(rs), re * 100 / Avg(rs));
                printf("        (Student's t, pooled s = %g)\n", spool);
        } else {
                printf("No difference proven at %.1f%% confidence\n",
                    studentpct[confidx]);
        }
}

struct plot {
        double          min;
        double          max;
        double          span;
        int             width;

        double          x0, dx;
        size_t          height;
        char            *data;
        char            **bar;
        int             separate_bars;
        int             num_datasets;
};

static struct plot plot;

static void
SetupPlot(int width, int separate, int num_datasets)
{
        struct plot *pl;

        pl = &plot;
        pl->width = width;
        pl->height = 0;
        pl->data = NULL;
        pl->bar = NULL;
        pl->separate_bars = separate;
        pl->num_datasets = num_datasets;
        pl->min = 999e99;
        pl->max = -999e99;
}

static void
AdjPlot(double a)
{
        struct plot *pl;

        pl = &plot;
        if (a < pl->min)
                pl->min = a;
        if (a > pl->max)
                pl->max = a;
        pl->span = pl->max - pl->min;
        pl->dx = pl->span / (pl->width - 1.0);
        pl->x0 = pl->min - .5 * pl->dx;
}

static void
DimPlot(struct dataset *ds)
{
        AdjPlot(Min(ds));
        AdjPlot(Max(ds));
        AdjPlot(Avg(ds) - Stddev(ds));
        AdjPlot(Avg(ds) + Stddev(ds));
}

static void
PlotSet(struct dataset *ds, int val)
{
        struct plot *pl;
        int i, x;
        size_t m, j, z;
        size_t n;
        int bar;
        double av, sd;

        pl = &plot;
        if (pl->span == 0)
                return;

        if (pl->separate_bars)
                bar = val-1;
        else
                bar = 0;

        if (pl->bar == NULL) {
                pl->bar = calloc(sizeof(char *), pl->num_datasets);
                assert(pl->bar != NULL);
        }

        if (pl->bar[bar] == NULL) {
                pl->bar[bar] = malloc(pl->width);
                assert(pl->bar[bar] != NULL);
                memset(pl->bar[bar], 0, pl->width);
        }

        m = 1;
        i = -1;
        j = 0;
        /* Set m to max(j) + 1, to allocate required memory */
        for (n = 0; n < ds->n; n++) {
                x = (ds->points[n] - pl->x0) / pl->dx;
                if (x == i) {
                        j++;
                        if (j > m)
                                m = j;
                } else {
                        j = 1;
                        i = x;
                }
        }
        m += 1;
        if (m > pl->height) {
                pl->data = realloc(pl->data, pl->width * m);
                assert(pl->data != NULL);
                memset(pl->data + pl->height * pl->width, 0,
                    (m - pl->height) * pl->width);
        }
        pl->height = m;
        i = -1;
        for (n = 0; n < ds->n; n++) {
                x = (ds->points[n] - pl->x0) / pl->dx;
                if (x == i) {
                        j++;
                } else {
                        j = 1;
                        i = x;
                }
                pl->data[j * pl->width + x] |= val;
        }
        av = Avg(ds);
        sd = Stddev(ds);
        if (!isnan(sd)) {
                x = ((av - sd) - pl->x0) / pl->dx;
                m = ((av + sd) - pl->x0) / pl->dx;
                pl->bar[bar][m] = '|';
                pl->bar[bar][x] = '|';
                for (z = x + 1; z < m; z++)
                        if (pl->bar[bar][z] == 0)
                                pl->bar[bar][z] = '_';
        }
        x = (Median(ds) - pl->x0) / pl->dx;
        pl->bar[bar][x] = 'M';
        x = (av - pl->x0) / pl->dx;
        pl->bar[bar][x] = 'A';
}

static void
DumpPlot(void)
{
        struct plot *pl;
        int i, j, k;
        size_t z;

        pl = &plot;
        if (pl->span == 0) {
                printf("[no plot, span is zero width]\n");
                return;
        }

        putchar('+');
        for (i = 0; i < pl->width; i++)
                putchar('-');
        putchar('+');
        putchar('\n');
        for (z = 1; z < pl->height; z++) {
                putchar('|');
                for (j = 0; j < pl->width; j++) {
                        k = pl->data[(pl->height - z) * pl->width + j];
                        if (k >= 0 && k < MAX_DS)
                                putchar(symbol[k]);
                        else
                                printf("[%02x]", k);
                }
                putchar('|');
                putchar('\n');
        }
        for (i = 0; i < pl->num_datasets; i++) {
                if (pl->bar[i] == NULL)
                        continue;
                putchar('|');
                for (j = 0; j < pl->width; j++) {
                        k = pl->bar[i][j];
                        if (k == 0)
                                k = ' ';
                        putchar(k);
                }
                putchar('|');
                putchar('\n');
        }
        putchar('+');
        for (i = 0; i < pl->width; i++)
                putchar('-');
        putchar('+');
        putchar('\n');
}

static int
dbl_cmp(const void *a, const void *b)
{
        const double *aa = a;
        const double *bb = b;

        if (*aa < *bb)
                return (-1);
        else if (*aa > *bb)
                return (1);
        else
                return (0);
}

static struct dataset *
ReadSet(FILE *f, const char *n, int column, const char *delim)
{
        char buf[BUFSIZ], *p, *t;
        struct dataset *s;
        double d;
        int line;
        int i;

        s = NewSet();
        s->name = strdup(n);
        assert(s->name != NULL);
        line = 0;
        while (fgets(buf, sizeof buf, f) != NULL) {
                line++;

                i = strlen(buf);
                while (i > 0 && isspace(buf[i - 1]))
                        buf[--i] = '\0';
                for (i = 1, t = strtok(buf, delim);
                     t != NULL && *t != '#';
                     i++, t = strtok(NULL, delim)) {
                        if (i == column)
                                break;
                }
                if (t == NULL || *t == '#')
                        continue;

                d = strtod(t, &p);
                if (p != NULL && *p != '\0')
                        errx(2, "Invalid data on line %d in %s", line, n);
                if (*buf != '\0')
                        AddPoint(s, d);
        }
        if (s->n < 3) {
                fprintf(stderr,
                    "Dataset %s must contain at least 3 data points\n", n);
                exit (2);
        }
        qsort(s->points, s->n, sizeof *s->points, dbl_cmp);
        return (s);
}

static void
usage(char const *whine)
{
        int i;

        fprintf(stderr, "%s\n", whine);
        fprintf(stderr,
            "Usage: ministat [-C column] [-c confidence] [-d delimiter(s)] [-Ans] [-w width] [file [file ...]]\n");
        fprintf(stderr, "\tconfidence = {");
        for (i = 0; i < NCONF; i++) {
                fprintf(stderr, "%s%g%%",
                    i ? ", " : "",
                    studentpct[i]);
        }
        fprintf(stderr, "}\n");
        fprintf(stderr, "\t-A : print statistics only. suppress the graph.\n");
        fprintf(stderr, "\t-C : column number to extract (starts and defaults to 1)\n");
        fprintf(stderr, "\t-d : delimiter(s) string, default to \" \\t\"\n");
        fprintf(stderr, "\t-n : print summary statistics only, no graph/test\n");
        fprintf(stderr, "\t-s : print avg/median/stddev bars on separate lines\n");
        fprintf(stderr, "\t-w : width of graph/test output (default 74 or terminal width)\n");
        exit (2);
}

int
main(int argc, char **argv)
{
        const char *setfilenames[MAX_DS - 1];
        struct dataset *ds[MAX_DS - 1];
        FILE *setfiles[MAX_DS - 1];
        int nds;
        double a;
        const char *delim = " \t";
        char *p;
        int c, i, ci;
        int column = 1;
        int flag_s = 0;
        int flag_n = 0;
        int termwidth = 74;
        int suppress_plot = 0;

        if (isatty(STDOUT_FILENO)) {
                struct winsize wsz;

                if ((p = getenv("COLUMNS")) != NULL && *p != '\0')
                        termwidth = atoi(p);
                else if (ioctl(STDOUT_FILENO, TIOCGWINSZ, &wsz) != -1 &&
                         wsz.ws_col > 0)
                        termwidth = wsz.ws_col - 2;
        }

        ci = -1;
        while ((c = getopt(argc, argv, "AC:c:d:snw:")) != -1)
                switch (c) {
                case 'A':
                        suppress_plot = 1;
                        break;
                case 'C':
                        column = strtol(optarg, &p, 10);
                        if (p != NULL && *p != '\0')
                                usage("Invalid column number.");
                        if (column <= 0)
                                usage("Column number should be positive.");
                        break;
                case 'c':
                        a = strtod(optarg, &p);
                        if (p != NULL && *p != '\0')
                                usage("Not a floating point number");
                        for (i = 0; i < NCONF; i++)
                                if (a == studentpct[i])
                                        ci = i;
                        if (ci == -1)
                                usage("No support for confidence level");
                        break;
                case 'd':
                        if (*optarg == '\0')
                                usage("Can't use empty delimiter string");
                        delim = optarg;
                        break;
                case 'n':
                        flag_n = 1;
                        break;
                case 's':
                        flag_s = 1;
                        break;
                case 'w':
                        termwidth = strtol(optarg, &p, 10);
                        if (p != NULL && *p != '\0')
                                usage("Invalid width, not a number.");
                        if (termwidth < 0)
                                usage("Unable to move beyond left margin.");
                        break;
                default:
                        usage("Unknown option");
                        break;
                }
        if (ci == -1)
                ci = 2;
        argc -= optind;
        argv += optind;

        if (argc == 0) {
                setfilenames[0] = "<stdin>";
                setfiles[0] = stdin;
                nds = 1;
        } else {
                if (argc > (MAX_DS - 1))
                        usage("Too many datasets.");
                nds = argc;
                for (i = 0; i < nds; i++) {
                        setfilenames[i] = argv[i];
                        if (!strcmp(argv[i], "-"))
                                setfiles[0] = stdin;
                        else
                                setfiles[i] = fopen(argv[i], "r");
                        if (setfiles[i] == NULL)
                                err(2, "Cannot open %s", argv[i]);
                }
        }

        if (caph_limit_stdio() < 0)
                err(2, "capsicum");

        for (i = 0; i < nds; i++)
                if (caph_limit_stream(fileno(setfiles[i]), CAPH_READ) < 0)
                        err(2, "unable to limit rights for %s",
                            setfilenames[i]);

        /* Enter Capsicum sandbox. */
        if (caph_enter() < 0)
                err(2, "unable to enter capability mode");

        for (i = 0; i < nds; i++) {
                ds[i] = ReadSet(setfiles[i], setfilenames[i], column, delim);
                if (setfiles[i] != stdin)
                        fclose(setfiles[i]);
        }

        for (i = 0; i < nds; i++)
                printf("%c %s\n", symbol[i+1], ds[i]->name);

        if (!flag_n && !suppress_plot) {
                SetupPlot(termwidth, flag_s, nds);
                for (i = 0; i < nds; i++)
                        DimPlot(ds[i]);
                for (i = 0; i < nds; i++)
                        PlotSet(ds[i], i + 1);
                DumpPlot();
        }
        VitalsHead();
        Vitals(ds[0], 1);
        for (i = 1; i < nds; i++) {
                Vitals(ds[i], i + 1);
                if (!flag_n)
                        Relative(ds[i], ds[0], ci);
        }
        exit(0);
}