/*
*
* This file is part of
* MakeIndex - A formatter and format independent index processor
*
* Copyright (C) 1989 by Chen & Harrison International Systems, Inc.
* Copyright (C) 1988 by Olivetti Research Center
* Copyright (C) 1987 by Regents of the University of California
*
* Author:
* Pehong Chen
* Chen & Harrison International Systems, Inc.
* Palo Alto, California
* USA
* ([email protected] or [email protected])
*
* Contributors:
* Please refer to the CONTRIB file that comes with this release
* for a list of people who have contributed to this and/or previous
* release(s) of MakeIndex.
*
* All rights reserved by the copyright holders. See the copyright
* notice distributed with this software for a complete description of
* the conditions under which it is made available.
*
*/
#include "mkind.h"
#include "genind.h"
#if sun /* avoid conflict with symbol in */
/* /usr/lang/SC1.0/include/CC/stdlib.h */
#define end the_end
#endif
static FIELD_PTR curr = NULL;
static FIELD_PTR prev = NULL;
static FIELD_PTR begin = NULL;
static FIELD_PTR end = NULL;
static FIELD_PTR range_ptr;
static int level = 0;
static int prev_level = 0;
static char *encap = NULL;
static char *prev_encap = NULL;
static int in_range = FALSE;
static int encap_range = FALSE;
static char buff[2 * ARGUMENT_MAX];
static char line[2 * ARGUMENT_MAX]; /* output buffer */
static int ind_lc = 0; /* overall line count */
static int ind_ec = 0; /* erroneous line count */
static int ind_indent;
static void flush_line ARGS((int print));
static void insert_page ARGS((void));
static int make_entry ARGS((int n));
static void make_item ARGS((char* term));
static void new_entry ARGS((void));
static void old_entry ARGS((void));
static int page_diff ARGS((struct KFIELD *a,struct KFIELD *b));
static void put_header ARGS((int let));
static void wrap_line ARGS((int print));
void
gen_ind(VOID_ARG)
{
int n;
int tmp_lc;
MESSAGE("Generating output file %s...", ind_fn);
PUT(preamble);
ind_lc += prelen;
if (init_page)
insert_page();
/* reset counters for putting out dots */
idx_dc = 0;
for (n = 0; n < idx_gt; n++) {
if (idx_key[n]->type != DUPLICATE)
if (make_entry(n)) {
IDX_DOT(DOT_MAX);
}
}
tmp_lc = ind_lc;
if (in_range) {
curr = range_ptr;
IND_ERROR("Unmatched range opening operator %c.\n", idx_ropen);
}
prev = curr;
flush_line(TRUE);
PUT(delim_t);
PUT(postamble);
tmp_lc = ind_lc + postlen;
if (ind_ec == 1) {
DONE(tmp_lc, "lines written", ind_ec, "warning");
} else {
DONE(tmp_lc, "lines written", ind_ec, "warnings");
}
}
static int
#if STDC
make_entry(int n)
#else
make_entry(n)
int n;
#endif
{
int let;
/* determine current and previous pointer */
prev = curr;
curr = idx_key[n];
/* check if current entry is in range */
if ((*curr->encap == idx_ropen) || (*curr->encap == idx_rclose))
encap = &(curr->encap[1]);
else
encap = curr->encap;
/* determine the current nesting level */
if (n == 0) {
prev_level = level = 0;
let = *curr->sf[0];
put_header(let);
make_item(NIL);
} else {
prev_level = level;
for (level = 0; level < FIELD_MAX; level++)
if (STRNEQ(curr->sf[level], prev->sf[level]) ||
STRNEQ(curr->af[level], prev->af[level]))
break;
if (level < FIELD_MAX)
new_entry();
else
old_entry();
}
if (*curr->encap == idx_ropen)
if (in_range) {
IND_ERROR("Extra range opening operator %c.\n", idx_ropen);
} else {
in_range = TRUE;
range_ptr = curr;
}
else if (*curr->encap == idx_rclose)
if (in_range) {
in_range = FALSE;
if (STRNEQ(&(curr->encap[1]), "") &&
STRNEQ(prev_encap, &(curr->encap[1]))) {
IND_ERROR("Range closing operator has an inconsistent encapsulator %s.\n",
&(curr->encap[1]));
}
} else {
IND_ERROR("Unmatched range closing operator %c.\n", idx_rclose);
}
else if ((*curr->encap != NUL) &&
STRNEQ(curr->encap, prev_encap) && in_range)
IND_ERROR("Inconsistent page encapsulator %s within range.\n",
curr->encap);
return (1);
}
static void
#if STDC
make_item(char *term)
#else
make_item(term)
char *term;
#endif
{
int i;
if (level > prev_level) {
/* ascending level */
if (*curr->af[level] == NUL)
sprintf(line, "%s%s%s", term, item_u[level], curr->sf[level]);
else
sprintf(line, "%s%s%s", term, item_u[level], curr->af[level]);
ind_lc += ilen_u[level];
} else {
/* same or descending level */
if (*curr->af[level] == NUL)
sprintf(line, "%s%s%s", term, item_r[level], curr->sf[level]);
else
sprintf(line, "%s%s%s", term, item_r[level], curr->af[level]);
ind_lc += ilen_r[level];
}
i = level + 1;
while (i < FIELD_MAX && *curr->sf[i] != NUL) {
PUT(line);
if (*curr->af[i] == NUL)
sprintf(line, "%s%s", item_x[i], curr->sf[i]);
else
sprintf(line, "%s%s", item_x[i], curr->af[i]);
ind_lc += ilen_x[i];
level = i; /* Added at 2.11 <[email protected]> */
i++;
}
ind_indent = 0;
strcat(line, delim_p[level]);
SAVE;
}
static void
new_entry(VOID_ARG)
{
int let;
FIELD_PTR ptr;
if (in_range) {
ptr = curr;
curr = range_ptr;
IND_ERROR("Unmatched range opening operator %c.\n", idx_ropen);
in_range = FALSE;
curr = ptr;
}
flush_line(TRUE);
/* beginning of a new group? */
if (((curr->group != ALPHA) && (curr->group != prev->group) &&
(prev->group == SYMBOL)) ||
((curr->group == ALPHA) &&
((unsigned char)(let = TOLOWER(curr->sf[0][0]))
!= (TOLOWER(prev->sf[0][0])))) ||
(german_sort &&
(curr->group != ALPHA) && (prev->group == ALPHA))) {
PUT(delim_t);
PUT(group_skip);
ind_lc += skiplen;
/* beginning of a new letter? */
put_header(let);
make_item(NIL);
} else
make_item(delim_t);
}
static void
old_entry(VOID_ARG)
{
int diff;
/* current entry identical to previous one: append pages */
diff = page_diff(end, curr);
if ((prev->type == curr->type) && (diff != -1) &&
(((diff == 0) && (prev_encap != NULL) && STREQ(encap, prev_encap)) ||
(merge_page && (diff == 1) &&
(prev_encap != NULL) && STREQ(encap, prev_encap)) ||
in_range)) {
end = curr;
/* extract in-range encaps out */
if (in_range &&
(*curr->encap != NUL) &&
(*curr->encap != idx_rclose) &&
STRNEQ(curr->encap, prev_encap)) {
sprintf(buff, "%s%s%s%s%s", encap_p, curr->encap,
encap_i, curr->lpg, encap_s);
wrap_line(FALSE);
}
if (in_range)
encap_range = TRUE;
} else {
flush_line(FALSE);
if ((diff == 0) && (prev->type == curr->type)) {
IND_ERROR(
"Conflicting entries: multiple encaps for the same page under same key.\n",
"");
} else if (in_range && (prev->type != curr->type)) {
IND_ERROR(
"Illegal range formation: starting & ending pages are of different types.\n",
"");
} else if (in_range && (diff == -1)) {
IND_ERROR(
"Illegal range formation: starting & ending pages cross chap/sec breaks.\n",
"");
}
SAVE;
}
}
static int
#if STDC
page_diff(FIELD_PTR a,FIELD_PTR b)
#else
page_diff(a, b)
FIELD_PTR a;
FIELD_PTR b;
#endif
{
short i;
if (a->count != b->count)
return (-1);
for (i = 0; i < a->count - 1; i++)
if (a->npg[i] != b->npg[i])
return (-1);
return (b->npg[b->count - 1] - a->npg[a->count - 1]);
}
static void
#if STDC
put_header(int let)
#else
put_header(let)
int let;
#endif
{
if (headings_flag)
{
PUT(heading_pre);
ind_lc += headprelen;
switch (curr->group)
{
case SYMBOL:
if (headings_flag > 0)
{
PUT(symhead_pos);
}
else
{
PUT(symhead_neg);
}
break;
case ALPHA:
if (headings_flag > 0)
{
let = TOUPPER(let);
PUTC(let);
}
else
{
let = TOLOWER(let);
PUTC(let);
}
break;
default:
if (headings_flag > 0)
{
PUT(numhead_pos);
}
else
{
PUT(numhead_neg);
}
break;
}
PUT(heading_suf);
ind_lc += headsuflen;
}
}
/* changes for 2.12 (May 20, 1993) by Julian Reschke ([email protected]):
Use keywords suffix_2p, suffix_3p or suffix_mp for one, two or
multiple page ranges (when defined) */
static void
#if STDC
flush_line(int print)
#else
flush_line(print)
int print;
#endif
{
char tmp[sizeof(buff)];
if (page_diff(begin, end) != 0)
if (encap_range || (page_diff(begin, prev) > (*suffix_2p ? 0 : 1)))
{
int diff = page_diff(begin, end);
if ((diff == 1) && *suffix_2p)
sprintf(buff, "%s%s", begin->lpg, suffix_2p);
else if ((diff == 2) && *suffix_3p)
sprintf(buff, "%s%s", begin->lpg, suffix_3p);
else if ((diff >= 2) && *suffix_mp)
sprintf(buff, "%s%s", begin->lpg, suffix_mp);
else
sprintf(buff, "%s%s%s", begin->lpg, delim_r, end->lpg);
encap_range = FALSE;
}
else
sprintf(buff, "%s%s%s", begin->lpg, delim_n, end->lpg);
else
{
encap_range = FALSE; /* might be true from page range on same page */
strcpy(buff, begin->lpg);
}
if (*prev_encap != NUL)
{
strcpy(tmp, buff);
sprintf(buff, "%s%s%s%s%s",
encap_p, prev_encap, encap_i, tmp, encap_s);
}
wrap_line(print);
}
static void
#if STDC
wrap_line(int print)
#else
wrap_line(print)
int print;
#endif
{
int len;
len = strlen(line) + strlen(buff) + ind_indent;
if (print) {
if (len > linemax) {
PUTLN(line);
PUT(indent_space);
ind_indent = indent_length;
} else
PUT(line);
PUT(buff);
} else {
if (len > linemax) {
PUTLN(line);
sprintf(line, "%s%s%s", indent_space, buff, delim_n);
ind_indent = indent_length;
} else {
strcat(buff, delim_n);
strcat(line, buff);
}
}
}
static void
insert_page(VOID_ARG)
{
int i = 0;
int j = 0;
int page = 0;
if (even_odd >= 0) {
/* find the rightmost digit */
while (pageno[i++] != NUL);
j = --i;
/* find the leftmost digit */
while (isdigit(pageno[--i]) && i > 0);
if (!isdigit(pageno[i]))
i++;
/* convert page from literal to numeric */
page = strtoint(&pageno[i]) + 1;
/* check even-odd numbering */
if (((even_odd == 1) && (page % 2 == 0)) ||
((even_odd == 2) && (page % 2 == 1)))
page++;
pageno[j + 1] = NUL;
/* convert page back to literal */
while (page >= 10) {
pageno[j--] = TOASCII(page % 10);
page = page / 10;
}
pageno[j] = TOASCII(page);
if (i < j) {
while (pageno[j] != NUL)
pageno[i++] = pageno[j++];
pageno[i] = NUL;
}
}
PUT(setpage_open);
PUT(pageno);
PUT(setpage_close);
ind_lc += setpagelen;
}
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