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|
/*
*
* This file is part of
* MakeIndex - A formatter and format independent index processor
*
* Copyright (C) 1998-2011 by the TeX Live project.
* 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
*
* 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 "scanid.h"
#define CHECK_LENGTH() if (i > len_field) goto FIELD_OVERFLOW
int idx_lc; /* line count */
int idx_tc; /* total entry count */
int idx_ec; /* erroneous entry count */
int idx_dc; /* number of dots printed so far */
static int first_entry = TRUE;
static int comp_len;
static char key[ARGUMENT_MAX];
static char no[NUMBER_MAX];
NODE_PTR head;
NODE_PTR tail;
static void flush_to_eol (void);
static int make_key (void);
static void make_string (char **ppstr,int n);
static int scan_alpha_lower (char *no,int *npg,short *count);
static int scan_alpha_upper (char *no,int *npg,short *count);
static int scan_arabic (char *no,int *npg,short *count);
static int scan_arg1 (void);
static int scan_arg2 (void);
static int scan_field (int *n,char field[],int len_field,
int ck_level, int ck_encap,int ck_actual);
static int scan_key (struct KFIELD *data);
static int scan_no (char *no,int *npg,short *count,short *type);
static int scan_roman_lower (char *no,int *npg,short *count);
static int scan_roman_upper (char *no,int *npg,short *count);
static void search_quote (char **sort_key,char **actual_key);
void
scan_idx(void)
{
char keyword[ARRAY_MAX];
int c;
int i = 0;
int not_eof = TRUE;
int arg_count = -1;
MESSAGE1("Scanning input file %s...", idx_fn);
idx_lc = idx_tc = idx_ec = idx_dc = 0;
comp_len = strlen(page_comp);
while (not_eof) {
switch (c = GET_CHAR(idx_fp)) {
case EOF:
if (arg_count == 2) {
idx_lc++;
if (make_key())
IDX_DOT(DOT_MAX);
arg_count = -1;
} else
not_eof = FALSE;
break;
case LFD:
idx_lc++;
if (arg_count == 2) {
if (make_key())
IDX_DOT(DOT_MAX);
arg_count = -1;
} else if (arg_count > -1) {
IDX_ERROR("Missing arguments -- need two (premature LFD).\n");
arg_count = -1;
}
case TAB:
case SPC:
break;
default:
switch (arg_count) {
case -1:
i = 0;
keyword[i++] = (char) c;
arg_count++;
idx_tc++;
break;
case 0:
if (c == idx_aopen) {
arg_count++;
keyword[i] = NUL;
if (STREQ(keyword, idx_keyword)) {
if (!scan_arg1()) {
arg_count = -1;
}
} else {
IDX_SKIPLINE;
IDX_ERROR1("Unknown index keyword %s.\n", keyword);
}
} else {
if (i < ARRAY_MAX)
keyword[i++] = (char) c;
else {
IDX_SKIPLINE;
IDX_ERROR2("Index keyword %s too long (max %d).\n",
keyword, ARRAY_MAX);
}
}
break;
case 1:
if (c == idx_aopen) {
arg_count++;
if (!scan_arg2()) {
arg_count = -1;
}
} else {
IDX_SKIPLINE;
IDX_ERROR1(
"No opening delimiter for second argument (illegal character `%c').\n", c);
}
break;
case 2:
IDX_SKIPLINE;
IDX_ERROR1(
"No closing delimiter for second argument (illegal character `%c').\n", c);
break;
}
break;
}
}
/* fixup the total counts */
idx_tt += idx_tc;
idx_et += idx_ec;
DONE(idx_tc - idx_ec, "entries accepted", idx_ec, "rejected");
CLOSE(idx_fp);
}
static void
flush_to_eol(void)
{ /* flush to end-of-line, or end-of-file, whichever is first */
int a;
while ( ((a = GET_CHAR(idx_fp)) != LFD) && (a != EOF) )
/* NO-OP */;
}
static int
make_key(void)
{
NODE_PTR ptr;
int i;
static size_t len = sizeof(NODE);
/* allocate and initialize a node */
#ifdef DEBUG
totmem += len;
(void)fprintf(stderr,"make_key(): malloc(%d)\ttotmem = %ld\n",
len,totmem);
#endif /* DEBUG */
if ((ptr = (NODE_PTR) malloc(len)) == NULL)
fprintf (stderr, "Not enough core...abort.\n");
bzero(ptr, len);
/* Initialize dangling pointers
* Note: it would be a nice work to redesign the code to use NULL for
* comparision ... nevertheless, using local "" in a global environment
* isn't the hit because the allocation of the keys with german_sort may
* crash with a nitpicking memory allocation (Linux, libc-5.4.46).
* <werner@suse.de>
*/
for (i = 0; i < FIELD_MAX; i++)
{
make_string(&(ptr->data.sf[i]), 1);
make_string(&(ptr->data.af[i]), 1);
}
make_string(&(ptr->data.encap), 1);
ptr->data.lpg[0] = NUL;
ptr->data.count = 0;
ptr->data.type = EMPTY;
/* process index key */
if (!scan_key(&(ptr->data)))
return (FALSE);
/* determine group type */
ptr->data.group = group_type(ptr->data.sf[0]);
/* process page number */
strcpy(ptr->data.lpg, no);
if (!scan_no(no, ptr->data.npg, &(ptr->data.count), &(ptr->data.type)))
return (FALSE);
if (first_entry) {
head = tail = ptr;
first_entry = FALSE;
} else {
tail->next = ptr;
tail = ptr;
}
ptr->data.lc = idx_lc;
ptr->data.fn = idx_fn;
tail->next = NULL;
return (TRUE);
}
static void
make_string(char **ppstr, int n)
{
if (*ppstr) /* Do NOT leaking here, <werner@suse.de> */
free(*ppstr);
/* Note: we have always allocate the correct amount of memory to
* avoid chrashes because the string length of the actual and
* sort key may differ at german_sort and strange indexentries
* <werner@suse.de>
*/
(*ppstr) = (char*)malloc(n);
if (!(*ppstr))
fprintf (stderr, "Not enough core...abort.\n");
bzero(*ppstr, n); /* Always zero anything, <werner@suse.de> */
}
static int
scan_key(FIELD_PTR data)
{
int i = 0; /* current level */
int n = 0; /* index to the key[] array */
int second_round = FALSE;
int last = FIELD_MAX - 1;
size_t len;
while (TRUE) {
if (key[n] == NUL)
break;
len = strlen(key);
if (key[n] == idx_encap)
{
n++;
make_string(&(data->encap), len + 1);
if (scan_field(&n, data->encap, len, FALSE, FALSE, FALSE))
break;
else
return (FALSE);
}
if (key[n] == idx_actual) {
n++;
make_string(&(data->af[i]), len + 1);
if (i == last)
{
if (!scan_field(&n, data->af[i], len, FALSE, TRUE, FALSE))
return (FALSE);
}
else
{
if (!scan_field(&n, data->af[i], len, TRUE, TRUE, FALSE))
return (FALSE);
}
} else {
/* Next nesting level */
if (second_round) {
i++;
n++;
}
make_string(&(data->sf[i]), len + 1);
if (i == last)
{
if (!scan_field(&n, data->sf[i], len, FALSE, TRUE, TRUE))
return (FALSE);
}
else
{
if (!scan_field(&n, data->sf[i], len, TRUE, TRUE, TRUE))
return (FALSE);
}
second_round = TRUE;
if (german_sort && strchr(data->sf[i], '"'))
{
make_string(&(data->af[i]),strlen(data->sf[i]) + 1);
search_quote(&(data->sf[i]), &(data->af[i]));
}
}
}
/* check for empty fields which shouldn't be empty */
if (*data->sf[0] == NUL) {
NULL_RTN;
}
for (i = 1; i < FIELD_MAX - 1; i++)
if ((*data->sf[i] == NUL) &&
((*data->af[i] != NUL) || (*data->sf[i + 1] != NUL))) {
NULL_RTN;
}
/* i == FIELD_MAX-1 */
if ((*data->sf[i] == NUL) && (*data->af[i] != NUL)) {
NULL_RTN;
}
return (TRUE);
}
static int
scan_field(int *n, char field[], int len_field, int ck_level, int ck_encap,
int ck_actual)
{
int i = 0;
int nbsh; /* backslash count */
if (compress_blanks && ((key[*n] == SPC) || (key[*n] == TAB)))
++* n;
while (TRUE) {
nbsh = 0;
while (key[*n] == idx_escape)
{
nbsh++;
field[i++] = key[*n];
CHECK_LENGTH();
++*n;
}
if (key[*n] == idx_quote)
{
if (nbsh % 2 == 0)
field[i++] = key[++*n];
else
field[i++] = key[*n];
CHECK_LENGTH();
}
else if ((ck_level && (key[*n] == idx_level)) ||
(ck_encap && (key[*n] == idx_encap)) ||
(ck_actual && (key[*n] == idx_actual)) ||
(key[*n] == NUL))
{
if ((i > 0) && compress_blanks && (field[i - 1] == SPC))
field[i - 1] = NUL;
else
field[i] = NUL;
return (TRUE);
} else {
field[i++] = key[*n];
CHECK_LENGTH();
if ((!ck_level) && (key[*n] == idx_level)) {
IDX_ERROR2("Extra `%c' at position %d of first argument.\n",
idx_level, *n + 1);
return (FALSE);
} else if ((!ck_encap) && (key[*n] == idx_encap)) {
IDX_ERROR2("Extra `%c' at position %d of first argument.\n",
idx_encap, *n + 1);
return (FALSE);
} else if ((!ck_actual) && (key[*n] == idx_actual)) {
IDX_ERROR2("Extra `%c' at position %d of first argument.\n",
idx_actual, *n + 1);
return (FALSE);
}
}
/* check if max field length is reached */
if (i > len_field)
{
FIELD_OVERFLOW:
if (!ck_encap) {
IDX_ERROR1("Encapsulator of page number too long (max. %d).\n",
len_field);
} else if (ck_actual) {
IDX_ERROR1("Index sort key too long (max. %d).\n", len_field);
} else {
IDX_ERROR1("Text of key entry too long (max. %d).\n", len_field);
}
return (FALSE);
}
++*n;
}
}
int
group_type(char *str)
{
int i = 0;
while ((str[i] != NUL) && ISDIGIT(str[i]))
i++;
if (str[i] == NUL) {
sscanf(str, "%d", &i);
return (i);
} else if (ISSYMBOL(str[0]))
return (SYMBOL);
else
return (ALPHA);
}
static int
scan_no(char no[], int npg[], short *count, short *type)
{
int i = 1;
if (isdigit(no[0])) {
*type = ARAB;
if (!scan_arabic(no, npg, count))
return (FALSE);
/* simple heuristic to determine if a letter is Roman or Alpha */
} else if (IS_ROMAN_LOWER(no[0]) && (!IS_COMPOSITOR)) {
*type = ROML;
if (!scan_roman_lower(no, npg, count))
return (FALSE);
/* simple heuristic to determine if a letter is Roman or Alpha */
} else if (IS_ROMAN_UPPER(no[0]) &&
((no[0] == ROMAN_I) || (!IS_COMPOSITOR))) {
*type = ROMU;
if (!scan_roman_upper(no, npg, count))
return (FALSE);
} else if (IS_ALPHA_LOWER(no[0])) {
*type = ALPL;
if (!scan_alpha_lower(no, npg, count))
return (FALSE);
} else if (IS_ALPHA_UPPER(no[0])) {
*type = ALPU;
if (!scan_alpha_upper(no, npg, count))
return (FALSE);
} else {
IDX_ERROR1("Illegal page number %s.\n", no);
return (FALSE);
}
return (TRUE);
}
static int
scan_arabic(char no[], int npg[], short *count)
{
short i = 0;
char str[ARABIC_MAX+1]; /* space for trailing NUL */
while ((no[i] != NUL) && (i <= ARABIC_MAX) && (!IS_COMPOSITOR)) {
if (isdigit(no[i])) {
str[i] = no[i];
i++;
} else {
IDX_ERROR2("Illegal Arabic digit: position %d in %s.\n", i + 1, no);
return (FALSE);
}
}
if (i > ARABIC_MAX) {
IDX_ERROR2("Arabic page number %s too big (max %d digits).\n",
no, ARABIC_MAX);
return (FALSE);
}
str[i] = NUL;
ENTER(strtoint(str) + page_offset[ARAB]);
if (IS_COMPOSITOR)
return (scan_no(&no[i + comp_len], npg, count, &i));
else
return (TRUE);
}
static int
scan_roman_lower(char no[], int npg[], short *count)
{
short i = 0;
int inp = 0;
int prev = 0;
int the_new;
while ((no[i] != NUL) && (i < ROMAN_MAX) && (!IS_COMPOSITOR)) {
if ((IS_ROMAN_LOWER(no[i])) &&
((the_new = ROMAN_LOWER_VAL(no[i])) != 0)) {
if (prev == 0)
prev = the_new;
else {
if (prev < the_new) {
prev = the_new - prev;
the_new = 0;
}
inp += prev;
prev = the_new;
}
} else {
IDX_ERROR2("Illegal Roman number: position %d in %s.\n", i + 1, no);
return (FALSE);
}
i++;
}
if (i == ROMAN_MAX) {
IDX_ERROR2("Roman page number %s too big (max %d digits).\n",
no, ROMAN_MAX);
return (FALSE);
}
inp += prev;
ENTER(inp + page_offset[ROML]);
if (IS_COMPOSITOR)
return (scan_no(&no[i + comp_len], npg, count, &i));
else
return (TRUE);
}
static int
scan_roman_upper(char no[], int npg[], short *count)
{
short i = 0;
int inp = 0;
int prev = 0;
int the_new;
while ((no[i] != NUL) && (i < ROMAN_MAX) && (!IS_COMPOSITOR)) {
if ((IS_ROMAN_UPPER(no[i])) &&
((the_new = ROMAN_UPPER_VAL(no[i])) != 0)) {
if (prev == 0)
prev = the_new;
else {
if (prev < the_new) {
prev = the_new - prev;
the_new = 0;
}
inp += prev;
prev = the_new;
}
} else {
IDX_ERROR2("Illegal Roman number: position %d in %s.\n", i + 1, no);
return (FALSE);
}
i++;
}
if (i == ROMAN_MAX) {
IDX_ERROR2("Roman page number %s too big (max %d digits).\n",
no, ROMAN_MAX);
return (FALSE);
}
inp += prev;
ENTER(inp + page_offset[ROMU]);
if (IS_COMPOSITOR)
return (scan_no(&no[i + comp_len], npg, count, &i));
else
return (TRUE);
}
static int
scan_alpha_lower(char no[], int npg[], short *count)
{
short i;
ENTER(ALPHA_VAL(no[0]) + page_offset[ALPL]);
i = 1;
if (IS_COMPOSITOR)
return (scan_no(&no[comp_len + 1], npg, count, &i));
else
return (TRUE);
}
static int
scan_alpha_upper(char no[], int npg[], short *count)
{
short i;
ENTER(ALPHA_VAL(no[0]) + page_offset[ALPU]);
i = 1;
if (IS_COMPOSITOR)
return (scan_no(&no[comp_len + 1], npg, count, &i));
else
return (TRUE);
}
static int
scan_arg1(void)
{
int i = 0;
int n = 0; /* delimiter count */
int a;
if (compress_blanks)
while (((a = GET_CHAR(idx_fp)) == SPC) || (a == TAB));
else
a = GET_CHAR(idx_fp);
while ((i < ARGUMENT_MAX) && (a != EOF))
{
if ((a == idx_quote) || (a == idx_escape))
{ /* take next character literally */
key[i++] = (char) a; /* but preserve quote or escape */
a = GET_CHAR(idx_fp);
key[i++] = (char) a; /* save literal character */
}
else if (a == idx_aopen)
{ /* opening delimiters within the argument list */
key[i++] = (char) a;
n++;
}
else if (a == idx_aclose)
{
if (n == 0) /* end of argument */
{
if (compress_blanks && key[i - 1] == SPC)
key[i - 1] = NUL;
else
key[i] = NUL;
return (TRUE);
}
else /* nested delimiters */
{
key[i++] = (char) a;
n--;
}
}
else
{
switch (a)
{
case LFD:
idx_lc++;
IDX_ERROR("Incomplete first argument (premature LFD).\n");
return (FALSE);
case TAB:
case SPC:
/* compress successive SPC's to one SPC */
if (compress_blanks)
{
if ((i > 0) && (key[i - 1] != SPC) && (key[i - 1] != TAB))
key[i++] = SPC;
break;
}
default:
key[i++] = (char) a;
break;
}
}
a = GET_CHAR(idx_fp);
}
flush_to_eol(); /* Skip to end of line */
idx_lc++;
IDX_ERROR1("First argument too long (max %d).\n", ARGUMENT_MAX);
return (FALSE);
}
static int
scan_arg2(void)
{
int i = 0;
int a;
int hit_blank = FALSE;
while (((a = GET_CHAR(idx_fp)) == SPC) || (a == TAB));
while (i < NUMBER_MAX) {
if (a == idx_aclose) {
no[i] = NUL;
return (TRUE);
} else
switch (a) {
case LFD:
idx_lc++;
IDX_ERROR("Incomplete second argument (premature LFD).\n");
return (FALSE);
case TAB:
case SPC:
hit_blank = TRUE;
break;
default:
if (hit_blank) {
flush_to_eol(); /* Skip to end of line */
idx_lc++;
IDX_ERROR("Illegal space within numerals in second argument.\n");
return (FALSE);
}
no[i++] = (char) a;
break;
}
a = GET_CHAR(idx_fp);
}
flush_to_eol(); /* Skip to end of line */
idx_lc++;
IDX_ERROR1("Second argument too long (max %d).\n", NUMBER_MAX);
return (FALSE);
}
static void
search_quote(char **sort_key, char **actual_key)
{
char *ptr; /* pointer to sort_key */
const char *sort; /* contains sorting text */
int char_found = FALSE;
strcpy(*actual_key, *sort_key);
ptr = strchr(*sort_key, '"'); /* look for first double quote */
while (ptr != (char*)NULL)
{
sort = NULL;
switch (*(ptr + 1))
{ /* skip to umlaut or sharp S */
case 'a':
case 'A':
sort = isupper(*(ptr + 1)) ? "Ae" : "ae";
break;
case 'o':
case 'O':
sort = isupper(*(ptr + 1)) ? "Oe" : "oe";
break;
case 'u':
case 'U':
sort = isupper(*(ptr + 1)) ? "Ue" : "ue";
break;
case 's':
sort = "ss";
break;
default:
break;
}
if (sort != NULL)
{
char_found = TRUE;
*ptr = sort[0]; /* write to sort_key */
*(ptr + 1) = sort[1];
}
ptr = strchr(ptr + 1, '"'); /* next double quote */
}
if (!char_found) /* reset actual_key ? */
make_string(actual_key, 1);
return;
}
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