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arrayfunc.c
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arrayfunc.c
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/* arrayfunc.c -- High-level array functions used by other parts of the shell. */
/* Copyright (C) 2001-2009 Free Software Foundation, Inc.
This file is part of GNU Bash, the Bourne Again SHell.
Bash is free software: you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation, either version 3 of the License, or
(at your option) any later version.
Bash is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with Bash. If not, see <http://www.gnu.org/licenses/>.
*/
#include "config.h"
#if defined (ARRAY_VARS)
#if defined (HAVE_UNISTD_H)
# include <unistd.h>
#endif
#include <stdio.h>
#include "bashintl.h"
#include "shell.h"
#include "pathexp.h"
#include "shmbutil.h"
#include "builtins/common.h"
extern char *this_command_name;
extern int last_command_exit_value;
extern int array_needs_making;
static SHELL_VAR *bind_array_var_internal __P((SHELL_VAR *, arrayind_t, char *, char *, int));
static char *quote_assign __P((const char *));
static void quote_array_assignment_chars __P((WORD_LIST *));
static char *array_value_internal __P((char *, int, int, int *));
/* Standard error message to use when encountering an invalid array subscript */
const char * const bash_badsub_errmsg = N_("bad array subscript");
/* **************************************************************** */
/* */
/* Functions to manipulate array variables and perform assignments */
/* */
/* **************************************************************** */
/* Convert a shell variable to an array variable. The original value is
saved as array[0]. */
SHELL_VAR *
convert_var_to_array (var)
SHELL_VAR *var;
{
char *oldval;
ARRAY *array;
oldval = value_cell (var);
array = array_create ();
if (oldval)
array_insert (array, 0, oldval);
FREE (value_cell (var));
var_setarray (var, array);
/* these aren't valid anymore */
var->dynamic_value = (sh_var_value_func_t *)NULL;
var->assign_func = (sh_var_assign_func_t *)NULL;
INVALIDATE_EXPORTSTR (var);
if (exported_p (var))
array_needs_making++;
VSETATTR (var, att_array);
VUNSETATTR (var, att_invisible);
return var;
}
/* Convert a shell variable to an array variable. The original value is
saved as array[0]. */
SHELL_VAR *
convert_var_to_assoc (var)
SHELL_VAR *var;
{
char *oldval;
HASH_TABLE *hash;
oldval = value_cell (var);
hash = assoc_create (0);
if (oldval)
assoc_insert (hash, savestring ("0"), oldval);
FREE (value_cell (var));
var_setassoc (var, hash);
/* these aren't valid anymore */
var->dynamic_value = (sh_var_value_func_t *)NULL;
var->assign_func = (sh_var_assign_func_t *)NULL;
INVALIDATE_EXPORTSTR (var);
if (exported_p (var))
array_needs_making++;
VSETATTR (var, att_assoc);
VUNSETATTR (var, att_invisible);
return var;
}
static SHELL_VAR *
bind_array_var_internal (entry, ind, key, value, flags)
SHELL_VAR *entry;
arrayind_t ind;
char *key;
char *value;
int flags;
{
SHELL_VAR *dentry;
char *newval;
/* If we're appending, we need the old value of the array reference, so
fake out make_variable_value with a dummy SHELL_VAR */
if (flags & ASS_APPEND)
{
dentry = (SHELL_VAR *)xmalloc (sizeof (SHELL_VAR));
dentry->name = savestring (entry->name);
if (assoc_p (entry))
newval = assoc_reference (assoc_cell (entry), key);
else
newval = array_reference (array_cell (entry), ind);
if (newval)
dentry->value = savestring (newval);
else
{
dentry->value = (char *)xmalloc (1);
dentry->value[0] = '\0';
}
dentry->exportstr = 0;
dentry->attributes = entry->attributes & ~(att_array|att_assoc|att_exported);
/* Leave the rest of the members uninitialized; the code doesn't look
at them. */
newval = make_variable_value (dentry, value, flags);
dispose_variable (dentry);
}
else
newval = make_variable_value (entry, value, flags);
if (entry->assign_func)
(*entry->assign_func) (entry, newval, ind, key);
else if (assoc_p (entry))
assoc_insert (assoc_cell (entry), key, newval);
else
array_insert (array_cell (entry), ind, newval);
FREE (newval);
return (entry);
}
/* Perform an array assignment name[ind]=value. If NAME already exists and
is not an array, and IND is 0, perform name=value instead. If NAME exists
and is not an array, and IND is not 0, convert it into an array with the
existing value as name[0].
If NAME does not exist, just create an array variable, no matter what
IND's value may be. */
SHELL_VAR *
bind_array_variable (name, ind, value, flags)
char *name;
arrayind_t ind;
char *value;
int flags;
{
SHELL_VAR *entry;
entry = var_lookup (name, shell_variables);
if (entry == (SHELL_VAR *) 0)
entry = make_new_array_variable (name);
else if (readonly_p (entry) || noassign_p (entry))
{
if (readonly_p (entry))
err_readonly (name);
return (entry);
}
else if (array_p (entry) == 0)
entry = convert_var_to_array (entry);
/* ENTRY is an array variable, and ARRAY points to the value. */
return (bind_array_var_internal (entry, ind, 0, value, flags));
}
SHELL_VAR *
bind_array_element (entry, ind, value, flags)
SHELL_VAR *entry;
arrayind_t ind;
char *value;
int flags;
{
return (bind_array_var_internal (entry, ind, 0, value, flags));
}
SHELL_VAR *
bind_assoc_variable (entry, name, key, value, flags)
SHELL_VAR *entry;
char *name;
char *key;
char *value;
int flags;
{
SHELL_VAR *dentry;
char *newval;
if (readonly_p (entry) || noassign_p (entry))
{
if (readonly_p (entry))
err_readonly (name);
return (entry);
}
return (bind_array_var_internal (entry, 0, key, value, flags));
}
/* Parse NAME, a lhs of an assignment statement of the form v[s], and
assign VALUE to that array element by calling bind_array_variable(). */
SHELL_VAR *
assign_array_element (name, value, flags)
char *name, *value;
int flags;
{
char *sub, *vname, *akey;
arrayind_t ind;
int sublen;
SHELL_VAR *entry;
vname = array_variable_name (name, &sub, &sublen);
if (vname == 0)
return ((SHELL_VAR *)NULL);
if ((ALL_ELEMENT_SUB (sub[0]) && sub[1] == ']') || (sublen <= 1))
{
free (vname);
err_badarraysub (name);
return ((SHELL_VAR *)NULL);
}
entry = find_variable (vname);
if (entry && assoc_p (entry))
{
sub[sublen-1] = '\0';
akey = expand_assignment_string_to_string (sub, 0); /* [ */
sub[sublen-1] = ']';
if (akey == 0 || *akey == 0)
{
free (vname);
err_badarraysub (name);
return ((SHELL_VAR *)NULL);
}
entry = bind_assoc_variable (entry, vname, akey, value, flags);
}
else
{
ind = array_expand_index (sub, sublen);
if (ind < 0)
{
free (vname);
err_badarraysub (name);
return ((SHELL_VAR *)NULL);
}
entry = bind_array_variable (vname, ind, value, flags);
}
free (vname);
return (entry);
}
/* Find the array variable corresponding to NAME. If there is no variable,
create a new array variable. If the variable exists but is not an array,
convert it to an indexed array. If FLAGS&1 is non-zero, an existing
variable is checked for the readonly or noassign attribute in preparation
for assignment (e.g., by the `read' builtin). If FLAGS&2 is non-zero, we
create an associative array. */
SHELL_VAR *
find_or_make_array_variable (name, flags)
char *name;
int flags;
{
SHELL_VAR *var;
var = find_variable (name);
if (var == 0)
var = (flags & 2) ? make_new_assoc_variable (name) : make_new_array_variable (name);
else if ((flags & 1) && (readonly_p (var) || noassign_p (var)))
{
if (readonly_p (var))
err_readonly (name);
return ((SHELL_VAR *)NULL);
}
else if ((flags & 2) && array_p (var))
{
report_error (_("%s: cannot convert indexed to associative array"), name);
return ((SHELL_VAR *)NULL);
}
else if (array_p (var) == 0 && assoc_p (var) == 0)
var = convert_var_to_array (var);
return (var);
}
/* Perform a compound assignment statement for array NAME, where VALUE is
the text between the parens: NAME=( VALUE ) */
SHELL_VAR *
assign_array_from_string (name, value, flags)
char *name, *value;
int flags;
{
SHELL_VAR *var;
int vflags;
vflags = 1;
if (flags & ASS_MKASSOC)
vflags |= 2;
var = find_or_make_array_variable (name, vflags);
if (var == 0)
return ((SHELL_VAR *)NULL);
return (assign_array_var_from_string (var, value, flags));
}
/* Sequentially assign the indices of indexed array variable VAR from the
words in LIST. */
SHELL_VAR *
assign_array_var_from_word_list (var, list, flags)
SHELL_VAR *var;
WORD_LIST *list;
int flags;
{
register arrayind_t i;
register WORD_LIST *l;
ARRAY *a;
a = array_cell (var);
i = (flags & ASS_APPEND) ? array_max_index (a) + 1 : 0;
for (l = list; l; l = l->next, i++)
if (var->assign_func)
(*var->assign_func) (var, l->word->word, i, 0);
else
array_insert (a, i, l->word->word);
return var;
}
WORD_LIST *
expand_compound_array_assignment (var, value, flags)
SHELL_VAR *var;
char *value;
int flags;
{
WORD_LIST *list, *nlist;
char *val;
int ni;
/* I don't believe this condition is ever true any more. */
if (*value == '(') /*)*/
{
ni = 1;
val = extract_array_assignment_list (value, &ni);
if (val == 0)
return (WORD_LIST *)NULL;
}
else
val = value;
/* Expand the value string into a list of words, performing all the
shell expansions including pathname generation and word splitting. */
/* First we split the string on whitespace, using the shell parser
(ksh93 seems to do this). */
list = parse_string_to_word_list (val, 1, "array assign");
/* If we're using [subscript]=value, we need to quote each [ and ] to
prevent unwanted filename expansion. */
if (list)
quote_array_assignment_chars (list);
/* Now that we've split it, perform the shell expansions on each
word in the list. */
nlist = list ? expand_words_no_vars (list) : (WORD_LIST *)NULL;
dispose_words (list);
if (val != value)
free (val);
return nlist;
}
/* Callers ensure that VAR is not NULL */
void
assign_compound_array_list (var, nlist, flags)
SHELL_VAR *var;
WORD_LIST *nlist;
int flags;
{
ARRAY *a;
HASH_TABLE *h;
WORD_LIST *list;
char *w, *val, *nval;
int len, iflags;
arrayind_t ind, last_ind;
char *akey;
a = (var && array_p (var)) ? array_cell (var) : (ARRAY *)0;
h = (var && assoc_p (var)) ? assoc_cell (var) : (HASH_TABLE *)0;
akey = (char *)0;
ind = 0;
/* Now that we are ready to assign values to the array, kill the existing
value. */
if ((flags & ASS_APPEND) == 0)
{
if (a && array_p (var))
array_flush (a);
else if (h && assoc_p (var))
assoc_flush (h);
}
last_ind = (a && (flags & ASS_APPEND)) ? array_max_index (a) + 1 : 0;
for (list = nlist; list; list = list->next)
{
iflags = flags;
w = list->word->word;
/* We have a word of the form [ind]=value */
if ((list->word->flags & W_ASSIGNMENT) && w[0] == '[')
{
len = skipsubscript (w, 0, (var && assoc_p (var) != 0));
/* XXX - changes for `+=' */
if (w[len] != ']' || (w[len+1] != '=' && (w[len+1] != '+' || w[len+2] != '=')))
{
if (assoc_p (var))
{
err_badarraysub (w);
continue;
}
nval = make_variable_value (var, w, flags);
if (var->assign_func)
(*var->assign_func) (var, nval, last_ind, 0);
else
array_insert (a, last_ind, nval);
FREE (nval);
last_ind++;
continue;
}
if (len == 1)
{
err_badarraysub (w);
continue;
}
if (ALL_ELEMENT_SUB (w[1]) && len == 2)
{
if (assoc_p (var))
report_error (_("%s: invalid associative array key"), w);
else
report_error (_("%s: cannot assign to non-numeric index"), w);
continue;
}
if (array_p (var))
{
ind = array_expand_index (w + 1, len);
if (ind < 0)
{
err_badarraysub (w);
continue;
}
last_ind = ind;
}
else if (assoc_p (var))
{
akey = substring (w, 1, len);
if (akey == 0 || *akey == 0)
{
err_badarraysub (w);
continue;
}
}
/* XXX - changes for `+=' -- just accept the syntax. ksh93 doesn't do this */
if (w[len + 1] == '+' && w[len + 2] == '=')
{
iflags |= ASS_APPEND;
val = w + len + 3;
}
else
val = w + len + 2;
}
else if (assoc_p (var))
{
report_error (_("%s: %s: must use subscript when assigning associative array"), var->name, w);
continue;
}
else /* No [ind]=value, just a stray `=' */
{
ind = last_ind;
val = w;
}
if (integer_p (var))
this_command_name = (char *)NULL; /* no command name for errors */
bind_array_var_internal (var, ind, akey, val, iflags);
last_ind++;
}
}
/* Perform a compound array assignment: VAR->name=( VALUE ). The
VALUE has already had the parentheses stripped. */
SHELL_VAR *
assign_array_var_from_string (var, value, flags)
SHELL_VAR *var;
char *value;
int flags;
{
WORD_LIST *nlist;
if (value == 0)
return var;
nlist = expand_compound_array_assignment (var, value, flags);
assign_compound_array_list (var, nlist, flags);
if (nlist)
dispose_words (nlist);
return (var);
}
/* Quote globbing chars and characters in $IFS before the `=' in an assignment
statement (usually a compound array assignment) to protect them from
unwanted filename expansion or word splitting. */
static char *
quote_assign (string)
const char *string;
{
size_t slen;
int saw_eq;
char *temp, *t, *subs;
const char *s, *send;
int ss, se;
DECLARE_MBSTATE;
slen = strlen (string);
send = string + slen;
t = temp = (char *)xmalloc (slen * 2 + 1);
saw_eq = 0;
for (s = string; *s; )
{
if (*s == '=')
saw_eq = 1;
if (saw_eq == 0 && *s == '[') /* looks like a subscript */
{
ss = s - string;
se = skipsubscript (string, ss, 0);
subs = substring (s, ss, se);
*t++ = '\\';
strcpy (t, subs);
t += se - ss;
*t++ = '\\';
*t++ = ']';
s += se + 1;
free (subs);
continue;
}
if (saw_eq == 0 && (glob_char_p (s) || isifs (*s)))
*t++ = '\\';
COPY_CHAR_P (t, s, send);
}
*t = '\0';
return temp;
}
/* For each word in a compound array assignment, if the word looks like
[ind]=value, quote globbing chars and characters in $IFS before the `='. */
static void
quote_array_assignment_chars (list)
WORD_LIST *list;
{
char *nword;
WORD_LIST *l;
for (l = list; l; l = l->next)
{
if (l->word == 0 || l->word->word == 0 || l->word->word[0] == '\0')
continue; /* should not happen, but just in case... */
/* Don't bother if it doesn't look like [ind]=value */
if (l->word->word[0] != '[' || mbschr (l->word->word, '=') == 0) /* ] */
continue;
nword = quote_assign (l->word->word);
free (l->word->word);
l->word->word = nword;
}
}
/* skipsubscript moved to subst.c to use private functions. 2009/02/24. */
/* This function is called with SUB pointing to just after the beginning
`[' of an array subscript and removes the array element to which SUB
expands from array VAR. A subscript of `*' or `@' unsets the array. */
int
unbind_array_element (var, sub)
SHELL_VAR *var;
char *sub;
{
int len;
arrayind_t ind;
char *akey;
ARRAY_ELEMENT *ae;
len = skipsubscript (sub, 0, 0);
if (sub[len] != ']' || len == 0)
{
builtin_error ("%s[%s: %s", var->name, sub, _(bash_badsub_errmsg));
return -1;
}
sub[len] = '\0';
if (ALL_ELEMENT_SUB (sub[0]) && sub[1] == 0)
{
unbind_variable (var->name);
return (0);
}
if (assoc_p (var))
{
akey = expand_assignment_string_to_string (sub, 0); /* [ */
if (akey == 0 || *akey == 0)
{
builtin_error ("[%s]: %s", sub, _(bash_badsub_errmsg));
return -1;
}
assoc_remove (assoc_cell (var), akey);
}
else
{
ind = array_expand_index (sub, len+1);
if (ind < 0)
{
builtin_error ("[%s]: %s", sub, _(bash_badsub_errmsg));
return -1;
}
ae = array_remove (array_cell (var), ind);
if (ae)
array_dispose_element (ae);
}
return 0;
}
/* Format and output an array assignment in compound form VAR=(VALUES),
suitable for re-use as input. */
void
print_array_assignment (var, quoted)
SHELL_VAR *var;
int quoted;
{
char *vstr;
vstr = array_to_assign (array_cell (var), quoted);
if (vstr == 0)
printf ("%s=%s\n", var->name, quoted ? "'()'" : "()");
else
{
printf ("%s=%s\n", var->name, vstr);
free (vstr);
}
}
/* Format and output an associative array assignment in compound form
VAR=(VALUES), suitable for re-use as input. */
void
print_assoc_assignment (var, quoted)
SHELL_VAR *var;
int quoted;
{
char *vstr;
vstr = assoc_to_assign (assoc_cell (var), quoted);
if (vstr == 0)
printf ("%s=%s\n", var->name, quoted ? "'()'" : "()");
else
{
printf ("%s=%s\n", var->name, vstr);
free (vstr);
}
}
/***********************************************************************/
/* */
/* Utility functions to manage arrays and their contents for expansion */
/* */
/***********************************************************************/
/* Return 1 if NAME is a properly-formed array reference v[sub]. */
int
valid_array_reference (name)
char *name;
{
char *t;
int r, len;
t = mbschr (name, '['); /* ] */
if (t)
{
*t = '\0';
r = legal_identifier (name);
*t = '[';
if (r == 0)
return 0;
/* Check for a properly-terminated non-blank subscript. */
len = skipsubscript (t, 0, 0);
if (t[len] != ']' || len == 1)
return 0;
for (r = 1; r < len; r++)
if (whitespace (t[r]) == 0)
return 1;
return 0;
}
return 0;
}
/* Expand the array index beginning at S and extending LEN characters. */
arrayind_t
array_expand_index (s, len)
char *s;
int len;
{
char *exp, *t;
int expok;
arrayind_t val;
exp = (char *)xmalloc (len);
strncpy (exp, s, len - 1);
exp[len - 1] = '\0';
t = expand_arith_string (exp, 0);
this_command_name = (char *)NULL;
val = evalexp (t, &expok);
free (t);
free (exp);
if (expok == 0)
{
last_command_exit_value = EXECUTION_FAILURE;
top_level_cleanup ();
jump_to_top_level (DISCARD);
}
return val;
}
/* Return the name of the variable specified by S without any subscript.
If SUBP is non-null, return a pointer to the start of the subscript
in *SUBP. If LENP is non-null, the length of the subscript is returned
in *LENP. This returns newly-allocated memory. */
char *
array_variable_name (s, subp, lenp)
char *s, **subp;
int *lenp;
{
char *t, *ret;
int ind, ni;
t = mbschr (s, '[');
if (t == 0)
{
if (subp)
*subp = t;
if (lenp)
*lenp = 0;
return ((char *)NULL);
}
ind = t - s;
ni = skipsubscript (s, ind, 0);
if (ni <= ind + 1 || s[ni] != ']')
{
err_badarraysub (s);
if (subp)
*subp = t;
if (lenp)
*lenp = 0;
return ((char *)NULL);
}
*t = '\0';
ret = savestring (s);
*t++ = '['; /* ] */
if (subp)
*subp = t;
if (lenp)
*lenp = ni - ind;
return ret;
}
/* Return the variable specified by S without any subscript. If SUBP is
non-null, return a pointer to the start of the subscript in *SUBP.
If LENP is non-null, the length of the subscript is returned in *LENP. */
SHELL_VAR *
array_variable_part (s, subp, lenp)
char *s, **subp;
int *lenp;
{
char *t;
SHELL_VAR *var;
t = array_variable_name (s, subp, lenp);
if (t == 0)
return ((SHELL_VAR *)NULL);
var = find_variable (t);
free (t);
return (var == 0 || invisible_p (var)) ? (SHELL_VAR *)0 : var;
}
/* Return a string containing the elements in the array and subscript
described by S. If the subscript is * or @, obeys quoting rules akin
to the expansion of $* and $@ including double quoting. If RTYPE
is non-null it gets 1 if the array reference is name[*], 2 if the
reference is name[@], and 0 otherwise. */
static char *
array_value_internal (s, quoted, allow_all, rtype)
char *s;
int quoted, allow_all, *rtype;
{
int len;
arrayind_t ind;
char *akey;
char *retval, *t, *temp;
WORD_LIST *l;
SHELL_VAR *var;
var = array_variable_part (s, &t, &len);
/* Expand the index, even if the variable doesn't exist, in case side
effects are needed, like ${w[i++]} where w is unset. */
#if 0
if (var == 0)
return (char *)NULL;
#endif
if (len == 0)
return ((char *)NULL); /* error message already printed */
/* [ */
if (ALL_ELEMENT_SUB (t[0]) && t[1] == ']')
{
if (rtype)
*rtype = (t[0] == '*') ? 1 : 2;
if (allow_all == 0)
{
err_badarraysub (s);
return ((char *)NULL);
}
else if (var == 0 || value_cell (var) == 0)
return ((char *)NULL);
else if (array_p (var) == 0 && assoc_p (var) == 0)
l = add_string_to_list (value_cell (var), (WORD_LIST *)NULL);
else if (assoc_p (var))
{
l = assoc_to_word_list (assoc_cell (var));
if (l == (WORD_LIST *)NULL)
return ((char *)NULL);
}
else
{
l = array_to_word_list (array_cell (var));
if (l == (WORD_LIST *)NULL)
return ((char *) NULL);
}
if (t[0] == '*' && (quoted & (Q_HERE_DOCUMENT|Q_DOUBLE_QUOTES)))
{
temp = string_list_dollar_star (l);
retval = quote_string (temp);
free (temp);
}
else /* ${name[@]} or unquoted ${name[*]} */
retval = string_list_dollar_at (l, quoted);
dispose_words (l);
}
else
{
if (rtype)
*rtype = 0;
if (var == 0 || array_p (var) || assoc_p (var) == 0)
{
ind = array_expand_index (t, len);
if (ind < 0)
{
index_error:
if (var)
err_badarraysub (var->name);
else
{
t[-1] = '\0';
err_badarraysub (s);
t[-1] = '['; /* ] */
}
return ((char *)NULL);
}
}
else if (assoc_p (var))
{
t[len - 1] = '\0';
akey = expand_assignment_string_to_string (t, 0); /* [ */
t[len - 1] = ']';
if (akey == 0 || *akey == 0)
goto index_error;
}
if (var == 0)
return ((char *)NULL);
if (array_p (var) == 0 && assoc_p (var) == 0)
return (ind == 0 ? value_cell (var) : (char *)NULL);
else if (assoc_p (var))
retval = assoc_reference (assoc_cell (var), akey);
else
retval = array_reference (array_cell (var), ind);
}
return retval;
}
/* Return a string containing the elements described by the array and
subscript contained in S, obeying quoting for subscripts * and @. */
char *
array_value (s, quoted, rtype)
char *s;
int quoted, *rtype;
{
return (array_value_internal (s, quoted, 1, rtype));
}
/* Return the value of the array indexing expression S as a single string.
If ALLOW_ALL is 0, do not allow `@' and `*' subscripts. This is used
by other parts of the shell such as the arithmetic expression evaluator
in expr.c. */
char *
get_array_value (s, allow_all, rtype)
char *s;
int allow_all, *rtype;
{
return (array_value_internal (s, 0, allow_all, rtype));
}
char *
array_keys (s, quoted)
char *s;
int quoted;
{
int len;
char *retval, *t, *temp;
WORD_LIST *l;
SHELL_VAR *var;
var = array_variable_part (s, &t, &len);
/* [ */
if (var == 0 || ALL_ELEMENT_SUB (t[0]) == 0 || t[1] != ']')
return (char *)NULL;
if (array_p (var) == 0 && assoc_p (var) == 0)
l = add_string_to_list ("0", (WORD_LIST *)NULL);
else if (assoc_p (var))
l = assoc_keys_to_word_list (assoc_cell (var));
else
l = array_keys_to_word_list (array_cell (var));
if (l == (WORD_LIST *)NULL)
return ((char *) NULL);