Better diagnostics. Work on 'real' dictionary deletion.

[idzebra-moved-to-github.git] / index / kinput.c

/*
 * Copyright (C) 1994-1995, Index Data I/S 
 * All rights reserved.
 * Sebastian Hammer, Adam Dickmeiss
 *
 * $Log: kinput.c,v $
 * Revision 1.11  1995-12-06 16:06:43  adam
 * Better diagnostics. Work on 'real' dictionary deletion.
 *
 * Revision 1.10  1995/12/06  12:41:22  adam
 * New command 'stat' for the index program.
 * Filenames can be read from stdin by specifying '-'.
 * Bug fix/enhancement of the transformation from terms to regular
 * expressons in the search engine.
 *
 * Revision 1.9  1995/10/10  12:24:39  adam
 * Temporary sort files are compressed.
 *
 * Revision 1.8  1995/10/04  16:57:19  adam
 * Key input and merge sort in one pass.
 *
 * Revision 1.7  1995/10/02  15:18:52  adam
 * New member in recRetrieveCtrl: diagnostic.
 *
 * Revision 1.6  1995/09/29  15:51:56  adam
 * First work on multi-way read.
 *
 * Revision 1.5  1995/09/29  14:01:43  adam
 * Bug fixes.
 *
 * Revision 1.4  1995/09/28  14:22:57  adam
 * Sort uses smaller temporary files.
 *
 * Revision 1.3  1995/09/06  16:11:17  adam
 * Option: only one word key per file.
 *
 * Revision 1.2  1995/09/04  12:33:42  adam
 * Various cleanup. YAZ util used instead.
 *
 * Revision 1.1  1995/09/04  09:10:37  adam
 * More work on index add/del/update.
 * Merge sort implemented.
 * Initial work on z39 server.
 *
 */

#include <fcntl.h>
#include <unistd.h>
#include <stdlib.h>
#include <string.h>
#include <stdio.h>
#include <ctype.h>
#include <assert.h>

#include "index.h"

#define KEY_SIZE (1+sizeof(struct it_key))
#define INP_NAME_MAX 8192
#define INP_BUF_START 60000
#define INP_BUF_ADD  400000

static int no_diffs   = 0;
static int no_updates = 0;
static int no_deletions = 0;
static int no_insertions = 0;
static int no_iterations = 0;

struct key_file {
    int   no;            /* file no */
    off_t offset;        /* file offset */
    unsigned char *buf;  /* buffer block */
    size_t buf_size;     /* number of read bytes in block */
    size_t chunk;        /* number of bytes allocated */
    size_t buf_ptr;      /* current position in buffer */
    char *prev_name;     /* last word read */
    int   sysno;         /* last sysno */
    int   seqno;         /* last seqno */
};

void key_file_chunk_read (struct key_file *f)
{
    int nr = 0, r, fd;
    char fname[256];
    sprintf (fname, TEMP_FNAME, f->no);
    fd = open (fname, O_RDONLY);
    if (fd == -1)
    {
        logf (LOG_FATAL|LOG_ERRNO, "cannot open %s", fname);
        exit (1);
    }
    logf (LOG_LOG, "reading chunk from %s", fname);
    if (lseek (fd, f->offset, SEEK_SET) == -1)
    {
        logf (LOG_FATAL|LOG_ERRNO, "cannot seek %s", fname);
        exit (1);
    }
    while (f->chunk - nr > 0)
    {
        r = read (fd, f->buf + nr, f->chunk - nr);
        if (r <= 0)
            break;
        nr += r;
    }
    if (r == -1)
    {
        logf (LOG_FATAL|LOG_ERRNO, "read of %s", fname);
        exit (1);
    }
    f->buf_size = nr;
    f->buf_ptr = 0;
    close (fd);
}

struct key_file *key_file_init (int no, int chunk)
{
    struct key_file *f;

    f = xmalloc (sizeof(*f));
    f->sysno = 0;
    f->seqno = 0;
    f->no = no;
    f->chunk = chunk;
    f->offset = 0;
    f->buf = xmalloc (f->chunk);
    f->prev_name = xmalloc (256);
    *f->prev_name = '\0';
    key_file_chunk_read (f);
    return f;
}

int key_file_getc (struct key_file *f)
{
    if (f->buf_ptr < f->buf_size)
        return f->buf[(f->buf_ptr)++];
    if (f->buf_size < f->chunk)
        return EOF;
    f->offset += f->buf_size;
    key_file_chunk_read (f);
    if (f->buf_ptr < f->buf_size)
        return f->buf[(f->buf_ptr)++];
    else
        return EOF;
}

int key_file_decode (struct key_file *f)
{
    int c, d;

    c = key_file_getc (f);
    switch (c & 192) 
    {
    case 0:
        d = c;
        break;
    case 64:
        d = ((c&63) << 8) + (key_file_getc (f) & 0xff);
        break;
    case 128:
        d = ((c&63) << 8) + (key_file_getc (f) & 0xff);
        d = (d << 8) + (key_file_getc (f) & 0xff);
        break;
    case 192:
        d = ((c&63) << 8) + (key_file_getc (f) & 0xff);
        d = (d << 8) + (key_file_getc (f) & 0xff);
        d = (d << 8) + (key_file_getc (f) & 0xff);
        break;
    }
    return d;
}

int key_file_read (struct key_file *f, char *key)
{
    int i, d, c;
    struct it_key itkey;

    c = key_file_getc (f);
    if (c == 0)
    {
        strcpy (key, f->prev_name);
        i = 1+strlen (key);
    }
    else if (c == EOF)
        return 0;
    else
    {
        i = 0;
        key[i++] = c;
        while ((key[i++] = key_file_getc (f)))
            ;
        strcpy (f->prev_name, key);
        f->sysno = 0;
    }
    d = key_file_decode (f);
    key[i++] = d & 1;
    d = d >> 1;
    itkey.sysno = d + f->sysno;
    if (d) 
    {
        f->sysno = itkey.sysno;
        f->seqno = 0;
    }
    d = key_file_decode (f);
    itkey.seqno = d + f->seqno;
    f->seqno = itkey.seqno;
    memcpy (key + i, &itkey, sizeof(struct it_key));
    return i + sizeof (struct it_key);
}

struct heap_info {
    struct {
        struct key_file **file;
        char   **buf;
    } info;
    int    heapnum;
    int    *ptr;
    int    (*cmp)(const void *p1, const void *p2);
};

struct heap_info *key_heap_init (int nkeys,
                                 int (*cmp)(const void *p1, const void *p2))
{
    struct heap_info *hi;
    int i;

    hi = xmalloc (sizeof(*hi));
    hi->info.file = xmalloc (sizeof(*hi->info.file) * (1+nkeys));
    hi->info.buf = xmalloc (sizeof(*hi->info.buf) * (1+nkeys));
    hi->heapnum = 0;
    hi->ptr = xmalloc (sizeof(*hi->ptr) * (1+nkeys));
    hi->cmp = cmp;
    for (i = 0; i<= nkeys; i++)
    {
        hi->ptr[i] = i;
        hi->info.buf[i] = xmalloc (512);
    }
    return hi;
}

static void key_heap_swap (struct heap_info *hi, int i1, int i2)
{
    int swap;

    swap = hi->ptr[i1];
    hi->ptr[i1] = hi->ptr[i2];
    hi->ptr[i2] = swap;
}


static void key_heap_delete (struct heap_info *hi)
{
    int cur = 1, child = 2;

    assert (hi->heapnum > 0);

    key_heap_swap (hi, 1, hi->heapnum);
    hi->heapnum--;
    while (child <= hi->heapnum) {
        if (child < hi->heapnum &&
            (*hi->cmp)(&hi->info.buf[hi->ptr[child]],
                       &hi->info.buf[hi->ptr[child+1]]) > 0)
            child++;
        if ((*hi->cmp)(&hi->info.buf[hi->ptr[cur]],
                       &hi->info.buf[hi->ptr[child]]) > 0)
        {            
            key_heap_swap (hi, cur, child);
            cur = child;
            child = 2*cur;
        }
        else
            break;
    }
}

static void key_heap_insert (struct heap_info *hi, const char *buf, int nbytes,
                             struct key_file *kf)
{
    int cur, parent;

    cur = ++(hi->heapnum);
    memcpy (hi->info.buf[hi->ptr[cur]], buf, nbytes);
    hi->info.file[hi->ptr[cur]] = kf;

    parent = cur/2;
    while (parent && (*hi->cmp)(&hi->info.buf[hi->ptr[parent]],
                                &hi->info.buf[hi->ptr[cur]]) > 0)
    {
        key_heap_swap (hi, cur, parent);
        cur = parent;
        parent = cur/2;
    }
}

static int heap_read_one (struct heap_info *hi, char *name, char *key)
{
    int n, r;
    char rbuf[512];
    struct key_file *kf;

    if (!hi->heapnum)
        return 0;
    n = hi->ptr[1];
    strcpy (name, hi->info.buf[n]);
    kf = hi->info.file[n];
    r = strlen(name);
    memcpy (key, hi->info.buf[n] + r+1, KEY_SIZE);
    key_heap_delete (hi);
    if ((r = key_file_read (kf, rbuf)))
        key_heap_insert (hi, rbuf, r, kf);
    no_iterations++;
    return 1;
}

int heap_inp (Dict dict, ISAM isam, struct heap_info *hi)
{
    char *info;
    char next_name[INP_NAME_MAX+1];
    char cur_name[INP_NAME_MAX+1];
    int key_buf_size = INP_BUF_START;
    int key_buf_ptr;
    char *next_key;
    char *key_buf;
    int more;
    
    next_key = xmalloc (KEY_SIZE);
    key_buf = xmalloc (key_buf_size * (KEY_SIZE));
    more = heap_read_one (hi, cur_name, key_buf);
    while (more)                   /* EOF ? */
    {
        int nmemb;
        key_buf_ptr = KEY_SIZE;
        while (1)
        {
            if (!(more = heap_read_one (hi, next_name, next_key)))
                break;
            if (*next_name && strcmp (next_name, cur_name))
                break;
            memcpy (key_buf + key_buf_ptr, next_key, KEY_SIZE);
            key_buf_ptr += KEY_SIZE;
            if (key_buf_ptr+KEY_SIZE >= key_buf_size)
            {
                char *new_key_buf;
                new_key_buf = xmalloc (key_buf_size + INP_BUF_ADD);
                memcpy (new_key_buf, key_buf, key_buf_size);
                key_buf_size += INP_BUF_ADD;
                xfree (key_buf);
                key_buf = new_key_buf;
            }
        }
        no_diffs++;
        nmemb = key_buf_ptr / KEY_SIZE;
        assert (nmemb*KEY_SIZE == key_buf_ptr);
        if ((info = dict_lookup (dict, cur_name)))
        {
            ISAM_P isam_p, isam_p2;
            logf (LOG_DEBUG, "updating %s", cur_name);
            memcpy (&isam_p, info+1, sizeof(ISAM_P));
            isam_p2 = is_merge (isam, isam_p, nmemb, key_buf);
#if 0
            if (!isam_p2)
            {
                no_deletions++;
                dict_delete (dict, cur_name);
            }
            else 
#endif
            {
                no_updates++;
                if (isam_p2 != isam_p)
                    dict_insert (dict, cur_name, sizeof(ISAM_P), &isam_p2);
            }
        }
        else
        {
            ISAM_P isam_p;
            logf (LOG_DEBUG, "inserting %s", cur_name);
            no_insertions++;
            isam_p = is_merge (isam, 0, nmemb, key_buf);
            dict_insert (dict, cur_name, sizeof(ISAM_P), &isam_p);
        }
        memcpy (key_buf, next_key, KEY_SIZE);
        strcpy (cur_name, next_name);
    }
    return 0;
}

void key_input (const char *dict_fname, const char *isam_fname,
                int nkeys, int cache)
                
{
    Dict dict;
    ISAM isam;
    struct key_file **kf;
    char rbuf[1024];
    int i, r;
    struct heap_info *hi;

    dict = dict_open (dict_fname, cache, 1);
    if (!dict)
    {
        logf (LOG_FATAL, "dict_open fail of `%s'", dict_fname);
        exit (1);
    }
    isam = is_open (isam_fname, key_compare, 1, sizeof(struct it_key));
    if (!isam)
    {
        logf (LOG_FATAL, "is_open fail of `%s'", isam_fname);
        exit (1);
    }

    kf = xmalloc ((1+nkeys) * sizeof(*kf));
    for (i = 1; i<=nkeys; i++)
        kf[i] = key_file_init (i, 32768);
    
    hi = key_heap_init (nkeys, key_qsort_compare);
    for (i = 1; i<=nkeys; i++)
        if ((r = key_file_read (kf[i], rbuf)))
            key_heap_insert (hi, rbuf, r, kf[i]);
    heap_inp (dict, isam, hi);

    dict_close (dict);
    is_close (isam);

    logf (LOG_LOG, "Iterations . . .%7d", no_iterations);
    logf (LOG_LOG, "Distinct words .%7d", no_diffs);
    logf (LOG_LOG, "Updates. . . . .%7d", no_updates);
    logf (LOG_LOG, "Deletions. . . .%7d", no_deletions);
    logf (LOG_LOG, "Insertions . . .%7d", no_insertions);
}