/*
*
* 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
* (phc@renoir.berkeley.edu or chen@orc.olivetti.com)
*
* 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"
static long idx_gc;
static int check_mixsym ARGS((char *x,char *y));
static int compare ARGS((struct KFIELD * *a,struct KFIELD * *b));
static int compare_one ARGS((char *x,char *y));
static int compare_page ARGS((struct KFIELD * *a,struct KFIELD * *b));
static int compare_string ARGS((unsigned char *a,unsigned char *b));
static int new_strcmp ARGS((unsigned char *a, unsigned char *b,
int option));
void
sort_idx(VOID_ARG)
{
MESSAGE("Sorting entries...", "");
idx_dc = 0;
idx_gc = 0L;
qqsort((char *) idx_key, (int) idx_gt, (int) sizeof(FIELD_PTR),
(int (*) ARGS((char*,char*)))compare);
MESSAGE("done (%ld comparisons).\n", idx_gc);
}
static int
#if STDC
compare(FIELD_PTR *a, FIELD_PTR *b)
#else
compare(a, b)
FIELD_PTR *a;
FIELD_PTR *b;
#endif
{
int i;
int dif;
idx_gc++;
IDX_DOT(CMP_MAX);
for (i = 0; i < FIELD_MAX; i++) {
/* compare the sort fields */
if ((dif = compare_one((*a)->sf[i], (*b)->sf[i])) != 0)
break;
/* compare the actual fields */
if ((dif = compare_one((*a)->af[i], (*b)->af[i])) != 0)
break;
}
/* both key aggregates are identical, compare page numbers */
if (i == FIELD_MAX)
dif = compare_page(a, b);
return (dif);
}
static int
#if STDC
compare_one(char *x,char *y)
#else
compare_one(x, y)
char *x;
char *y;
#endif
{
int m;
int n;
if ((x[0] == NUL) && (y[0] == NUL))
return (0);
if (x[0] == NUL)
return (-1);
if (y[0] == NUL)
return (1);
m = group_type(x);
n = group_type(y);
/* both pure digits */
if ((m >= 0) && (n >= 0))
return (m - n);
/* x digit, y non-digit */
if (m >= 0) {
if (german_sort)
return (1);
else
return ((n == -1) ? 1 : -1);
}
/* x non-digit, y digit */
if (n >= 0) {
if (german_sort)
return (-1);
else
return ((m == -1) ? -1 : 1);
}
/* strings started with a symbol (including digit) */
if ((m == SYMBOL) && (n == SYMBOL))
return (check_mixsym(x, y));
/* x symbol, y non-symbol */
if (m == SYMBOL)
return (-1);
/* x non-symbol, y symbol */
if (n == SYMBOL)
return (1);
/* strings with a leading letter, the ALPHA type */
return (compare_string((unsigned char*)x, (unsigned char*)y));
}
static int
#if STDC
check_mixsym(char *x, char *y)
#else
check_mixsym(x, y)
char *x;
char *y;
#endif
{
int m;
int n;
m = ISDIGIT(x[0]);
n = ISDIGIT(y[0]);
if (m && !n)
return (1);
if (!m && n)
return (-1);
return (strcmp(x, y));
}
static int
#if STDC
compare_string(unsigned char *a, unsigned char *b)
#else
compare_string(a, b)
unsigned char *a;
unsigned char *b;
#endif
{
int i = 0;
int j = 0;
int al;
int bl;
while ((a[i] != NUL) || (b[j] != NUL)) {
if (a[i] == NUL)
return (-1);
if (b[j] == NUL)
return (1);
if (letter_ordering) {
if (a[i] == SPC)
i++;
if (b[j] == SPC)
j++;
}
al = TOLOWER(a[i]);
bl = TOLOWER(b[j]);
if (al != bl)
return (al - bl);
i++;
j++;
}
if (german_sort)
return (new_strcmp(a, b, GERMAN));
#if (OS_BS2000 | OS_MVSXA) /* in EBCDIC 'a' is lower than 'A' */
else
return (new_strcmp(a, b, ASCII));
#else
else
return (strcmp((char*)a, (char*)b));
#endif /* (OS_BS2000 | OS_MVSXA) */
}
static int
#if STDC
compare_page(FIELD_PTR *a, FIELD_PTR *b)
#else
compare_page(a, b)
FIELD_PTR *a;
FIELD_PTR *b;
#endif
{
int m = 0;
short i = 0;
while ((i < (*a)->count) && (i < (*b)->count) &&
((m = (*a)->npg[i] - (*b)->npg[i]) == 0))
{
i++;
}
if (m == 0)
{ /* common leading page numbers match */
if ((i == (*a)->count) && (i == (*b)->count))
{ /* all page numbers match */
#if 0 /* Faulty code replaced at 2.11 */
/* identical entries, except possibly in encap fields */
if (STREQ((*a)->encap, (*b)->encap))
{ /* encap fields identical */
if (((*a)->type != DUPLICATE) &&
((*b)->type != DUPLICATE))
(*b)->type = DUPLICATE;
else if ((*(*a)->encap == idx_ropen) ||
(*(*b)->encap == idx_rclose))
m = -1;
else if ((*(*a)->encap == idx_rclose) ||
(*(*b)->encap == idx_ropen))
m = 1;
}
else /* encap fields differ */
{
if ((*(*a)->encap == idx_ropen) &&
(*(*b)->encap == idx_rclose))
m = -1;
else if ((*(*a)->encap == idx_rclose) &&
(*(*b)->encap == idx_ropen))
m = 1;
/* else leave m == 0 */
}
#else /* new 2.11 code */
/***********************************************************
We have identical entries, except possibly in encap fields.
The ordering is tricky here. Consider the following input
sequence of index names, encaps, and page numbers:
foo|( 2
foo|) 6
foo|( 6
foo|) 10
This might legimately occur when a page range ends, and
subsequently, a new range starts, on the same page. If we
just order by range_open and range_close (here, parens),
then we will produce
foo|( 2
foo|( 6
foo|) 6
foo|) 10
This will later generate the index entry
foo, 2--6, \({6}, 10
which is not only wrong, but has also introduced an illegal
LaTeX macro, \({6}, because the merging step treated this
like a \see{6} entry.
The solution is to preserve the original input order, which
we can do by treating range_open and range_close as equal,
and then ordering by input line number. This will then
generate the correct index entry
foo, 2--10
Ordering inconsistencies from missing range open or close
entries, or mixing roman and arabic page numbers, will be
detected later.
***********************************************************/
#define isrange(c) ( ((c) == idx_ropen) || ((c) == idx_rclose) )
/* Order two range values by input line number */
if (isrange(*(*a)->encap) && isrange(*(*b)->encap))
m = (*a)->lc - (*b)->lc;
/* Handle identical encap fields; neither is a range delimiter */
else if (STREQ((*a)->encap, (*b)->encap))
{
/* If neither are yet marked duplicate, mark the second
of them to be ignored. */
if (((*a)->type != DUPLICATE) &&
((*b)->type != DUPLICATE))
(*b)->type = DUPLICATE;
/* leave m == 0 to show equality */
}
/* Encap fields differ: only one may be a range delimiter, */
/* or else neither of them is. If either of them is a range */
/* delimiter, order by input line number; otherwise, order */
/* by name. */
else
{
if ( isrange(*(*a)->encap) || isrange(*(*b)->encap) )
m = (*a)->lc - (*b)->lc; /* order by input line number */
else /* order non-range items by */
/* their encap strings */
m = compare_string((unsigned char*)((*a)->encap),
(unsigned char*)((*b)->encap));
}
#endif
}
else if ((i == (*a)->count) && (i < (*b)->count))
m = -1;
else if ((i < (*a)->count) && (i == (*b)->count))
m = 1;
}
return (m);
}
static int
#if STDC
new_strcmp(unsigned char *s1, unsigned char *s2, int option)
#else
new_strcmp(s1, s2, option)
unsigned char *s1;
unsigned char *s2;
int option;
#endif
{
int i;
i = 0;
while (s1[i] == s2[i])
if (s1[i++] == NUL)
return (0);
if (option) /* ASCII */
return (isupper(s1[i]) ? -1 : 1);
else /* GERMAN */
return (isupper(s1[i]) ? 1 : -1);
}
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