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gerrit.witaqua.org / external_bash / 9c4eca853d02ea94c03ea9dbeadc5e046dfc32f8 / . / array2.c
blob: fa8be00d678555b7263a229425d72ff275da3f3b [file] [log] [blame]
/*
* array.c - functions to create, destroy, access, and manipulate arrays
* of strings.
*
* Arrays are structs containing an array of elements and bookkeeping information.
* An element's index is stored with it.
*
* Chet Ramey
* chet@ins.cwru.edu
*/
/* Copyright (C) 1997-2021 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)
# ifdef _MINIX
# include <sys/types.h>
# endif
# include <unistd.h>
#endif
#include <stdio.h>
#include "bashansi.h"
#include "shell.h"
#include "array.h"
#include "builtins/common.h"
#define ARRAY_MAX_DOUBLE 16777216
static ARRAY_ELEMENT **array_copy_elements PARAMS((ARRAY *));
static char *array_to_string_internal PARAMS((ARRAY *, arrayind_t, arrayind_t, char *, int));
static char *spacesep = " ";
void
array_alloc (a, n)
ARRAY *a;
arrayind_t n;
{
arrayind_t i;
if (a == 0)
return; /* for now */
a->elements = (ARRAY_ELEMENT **)xmalloc (n * sizeof (ARRAY_ELEMENT *));
for (i = 0; i < n; i++)
a->elements[i] = 0;
a->alloc_size = n;
}
void
array_resize (a, n)
ARRAY *a;
arrayind_t n;
{
ARRAY_ELEMENT **e, *ae;
arrayind_t i, nsize;
if (a == 0)
return;
if (a->alloc_size > 0 && n >= a->max_index && n <= a->alloc_size)
return;
e = (ARRAY_ELEMENT **)xrealloc (a->elements, n * sizeof (ARRAY_ELEMENT *));
a->elements = e;
for (i = a->alloc_size; i < n; i++)
a->elements[i] = (ARRAY_ELEMENT *)NULL;
a->alloc_size = n;
}
void
array_expand (a, n)
ARRAY *a;
arrayind_t n;
{
arrayind_t nsize;
if (n >= a->alloc_size) {
nsize = a->alloc_size ? a->alloc_size : ARRAY_DEFAULT_SIZE;
while (n >= nsize)
nsize <<= 1;
if (nsize > ARRAY_MAX_DOUBLE)
nsize = n + ARRAY_DEFAULT_SIZE;
array_resize (a, nsize);
}
}
ARRAY *
array_create()
{
ARRAY *r;
r = (ARRAY *)xmalloc(sizeof(ARRAY));
r->max_index = r->first_index = -1;
r->num_elements = 0;
r->alloc_size = 0;
r->elements = (ARRAY_ELEMENT **)NULL;
return(r);
}
void
array_flush (a)
ARRAY *a;
{
int r;
if (a == 0)
return;
if (array_empty(a)) {
a->max_index = a->first_index = -1; /* paranoia */
return;
}
for (r = a->first_index; r <= a->max_index; r++)
if (a->elements[r]) {
array_dispose_element(a->elements[r]);
a->elements[r] = 0;
}
a->max_index = a->first_index = -1;
a->num_elements = 0;
}
void
array_dispose_elements(elist)
ARRAY_ELEMENT **elist;
{
arrayind_t i;
if (elist == 0)
return;
for (i = 0; elist[i]; i++)
array_dispose_element(elist[i]);
free(elist);
}
void
array_dispose(a)
ARRAY *a;
{
if (a == 0)
return;
array_dispose_elements (a->elements);
a->alloc_size = 0;
free(a);
}
static ARRAY_ELEMENT **
array_copy_elements (a)
ARRAY *a;
{
ARRAY_ELEMENT **ret;
arrayind_t i;
if (a == 0 || a->num_elements == 0)
return (ARRAY_ELEMENT **)NULL;
ret = (ARRAY_ELEMENT **)xmalloc (a->alloc_size * sizeof (ARRAY_ELEMENT *));
for (i = 0; i < a->alloc_size; i++)
ret[i] = a->elements[i] ? array_copy_element (a->elements[i]) : 0;
return ret;
}
ARRAY *
array_copy(a)
ARRAY *a;
{
ARRAY *a1;
if (a == 0)
return((ARRAY *) NULL);
a1 = array_create();
a1->max_index = a->max_index;
a1->first_index = a->first_index;
a1->num_elements = a->num_elements;
a1->alloc_size = a->alloc_size;
a1->elements = array_copy_elements (a);
return(a1);
}
/*
* Make and return a new array composed of the elements in array A from
* S to E, inclusive. The callers do the bounds checking.
*/
ARRAY *
array_slice(array, s, e)
ARRAY *array;
arrayind_t s, e;
{
ARRAY *a;
ARRAY_ELEMENT *p, *n;
arrayind_t i, ni;
arrayind_t mi, nsize;
a = array_create ();
nsize = ARRAY_DEFAULT_SIZE;
while (nsize < array->alloc_size)
nsize <<= 1;
if (nsize > ARRAY_MAX_DOUBLE)
nsize = array->alloc_size + ARRAY_DEFAULT_SIZE;
array_resize (a, nsize);
for (i = s; i < e; i++) {
p = array->elements[i];
n = p ? array_create_element (element_index(p), element_value(p)) : (ARRAY_ELEMENT *)NULL;
a->elements[i] = n;
}
a->num_elements = e - s;
a->max_index = e;
a->first_index = s;
return a;
}
/*
* Walk the array, calling FUNC once for each element, with the array
* element as the argument.
*/
void
array_walk(a, func, udata)
ARRAY *a;
sh_ae_map_func_t *func;
void *udata;
{
arrayind_t i;
register ARRAY_ELEMENT *ae;
if (a == 0 || array_empty(a))
return;
for (i = array_first_index (a); i <= array_max_index(a); i++) {
if ((ae = a->elements[i]) == 0)
continue;
if ((*func)(ae, udata) < 0)
return;
}
}
/*
* Shift the array A N elements to the left. Delete the first N elements
* and subtract N from the indices of the remaining elements. If FLAGS
* does not include AS_DISPOSE, this returns a null-terminated array of
* elements so the caller can dispose of the chain. If FLAGS includes
* AS_DISPOSE, this function disposes of the shifted-out elements and
* returns NULL.
*/
ARRAY_ELEMENT **
array_shift(a, n, flags)
ARRAY *a;
int n, flags;
{
ARRAY_ELEMENT **r, *ae;
register arrayind_t ni, ri;
int i, j;
if (a == 0 || array_empty(a) || n <= 0)
return ((ARRAY_ELEMENT **)NULL);
r = (ARRAY_ELEMENT **)xmalloc ((n + 1) * sizeof (ARRAY_ELEMENT *));
/* Easy case; shifting out all of the elements */
if (n >= a->num_elements) {
if (flags & AS_DISPOSE) {
array_flush (a);
return ((ARRAY_ELEMENT **)NULL);
}
for (ri = 0, i = a->first_index; i <= a->max_index; i++)
if (a->elements[i]) {
r[ri++] = a->elements[i];
a->elements[i] = 0;
}
a->first_index = a->max_index = -1;
a->num_elements = 0;
r[ri] = (ARRAY_ELEMENT *)NULL;
return r;
}
/* Shift out the first N elements, return them in R. Handle sparse
arrays by skipping over NULL array elements. */
for (i = a->first_index, ri = 0, j = 0; j < n; i++) {
if ((ae = a->elements[i]) == 0)
continue;
if (i > a->max_index)
break;
ni = i + n;
j++;
if (ae)
r[ri++] = a->elements[i];
a->elements[i] = a->elements[ni];
if (a->elements[i])
element_index(a->elements[i]) = i;
}
r[ri]= (ARRAY_ELEMENT *)NULL;
#ifdef DEBUG
if (j < n)
itrace("array_shift: short count: j = %d n = %d", j, n);
#endif
/* Now shift everything else, modifying the index in each element */
for (; i <= a->max_index; i++) {
ni = i + n;
a->elements[i] = (ni <= a->max_index) ? a->elements[ni] : (ARRAY_ELEMENT *)NULL;
if (a->elements[i])
element_index(a->elements[i]) = i;
}
a->num_elements -= n; /* modify bookkeeping information */
if (a->num_elements == 0)
a->first_index = a->max_index == -1;
else {
a->max_index -= n;
for (i = 0; i <= a->max_index; i++)
if (a->elements[i])
break;
a->first_index = i;
}
if (flags & AS_DISPOSE) {
for (i = 0; i < ri; i++)
array_dispose_element(r[i]);
free (r);
return ((ARRAY_ELEMENT **)NULL);
}
return r;
}
/*
* Shift array A right N indices. If S is non-null, it becomes the value of
* the new element 0. Returns the number of elements in the array after the
* shift.
*/
int
array_rshift (a, n, s)
ARRAY *a;
int n;
char *s;
{
register ARRAY_ELEMENT *ae, *new;
arrayind_t ni, nsize;
if (a == 0 || (array_empty(a) && s == 0))
return 0;
else if (n <= 0)
return (a->num_elements);
if (n >= a->alloc_size)
array_expand(a, n);
/* Shift right, adjusting the element indexes as we go */
for (ni = a->max_index; ni >= 0; ni--) {
a->elements[ni+n] = a->elements[ni];
if (a->elements[ni+n])
element_index(a->elements[ni+n]) = ni + n;
a->elements[ni] = (ARRAY_ELEMENT *)NULL;
}
a->max_index += n;
#if 0
/* Null out all the old indexes we just copied from */
for (ni = a->first_index; ni >= 0 && ni < n; ni++)
a->elements[ni] = (ARRAY_ELEMENT *)NULL;
#endif
a->first_index += n;
if (s) {
new = array_create_element(0, s);
a->elements[0] = new;
a->num_elements++;
a->first_index = 0;
if (array_num_elements(a) == 1) /* array was empty */
a->max_index = 0;
}
return (a->num_elements);
}
ARRAY_ELEMENT *
array_unshift_element(a)
ARRAY *a;
{
ARRAY_ELEMENT **r, *ret;
r = array_shift (a, 1, 0);
ret = r[0];
free (r);
return ret;
}
int
array_shift_element(a, v)
ARRAY *a;
char *v;
{
return (array_rshift (a, 1, v));
}
ARRAY *
array_quote(array)
ARRAY *array;
{
register arrayind_t i;
ARRAY_ELEMENT *a;
char *t;
if (array == 0 || array_head(array) == 0 || array_empty(array))
return (ARRAY *)NULL;
for (i = array_first_index(array); i <= array_max_index(array); i++) {
if ((a = array->elements[i]) == 0)
continue;
t = quote_string (a->value);
FREE(a->value);
a->value = t;
}
return array;
}
ARRAY *
array_quote_escapes(array)
ARRAY *array;
{
register arrayind_t i;
ARRAY_ELEMENT *a;
char *t;
if (array == 0 || array_head(array) == 0 || array_empty(array))
return (ARRAY *)NULL;
for (i = array_first_index(array); i <= array_max_index(array); i++) {
if ((a = array->elements[i]) == 0)
continue;
t = quote_escapes (a->value);
FREE(a->value);
a->value = t;
}
return array;
}
ARRAY *
array_dequote(array)
ARRAY *array;
{
register arrayind_t i;
ARRAY_ELEMENT *a;
char *t;
if (array == 0 || array_head(array) == 0 || array_empty(array))
return (ARRAY *)NULL;
for (i = array->first_index; i <= array->max_index; i++) {
if ((a = array->elements[i]) == 0)
continue;
t = dequote_string (a->value);
FREE(a->value);
a->value = t;
}
return array;
}
ARRAY *
array_dequote_escapes(array)
ARRAY *array;
{
register arrayind_t i;
ARRAY_ELEMENT *a;
char *t;
if (array == 0 || array_head(array) == 0 || array_empty(array))
return (ARRAY *)NULL;
for (i = array->first_index; i <= array->max_index; i++) {
if ((a = array->elements[i]) == 0)
continue;
t = dequote_escapes (a->value);
FREE(a->value);
a->value = t;
}
return array;
}
ARRAY *
array_remove_quoted_nulls(array)
ARRAY *array;
{
register arrayind_t i;
ARRAY_ELEMENT *a;
if (array == 0 || array_head(array) == 0 || array_empty(array))
return (ARRAY *)NULL;
for (i = array->first_index; i <= array->max_index; i++) {
if ((a = array->elements[i]) == 0)
continue;
a->value = remove_quoted_nulls (a->value);
}
return array;
}
/*
* Return a string whose elements are the members of array A beginning at
* index START and spanning NELEM members. Null elements are counted.
* Since arrays are sparse, unset array elements are not counted.
*/
char *
array_subrange (a, start, nelem, starsub, quoted, pflags)
ARRAY *a;
arrayind_t start, nelem;
int starsub, quoted, pflags;
{
ARRAY *a2;
arrayind_t s, e;
int i;
char *t;
WORD_LIST *wl;
if (array_empty (a) || start > array_max_index(a))
return ((char *)NULL);
/*
* Find element with index START. If START corresponds to an unset
* element (arrays can be sparse), use the first element whose index
* is >= START. If START is < 0, we count START indices back from
* the end of A (not elements, even with sparse arrays -- START is an
* index).
*/
for (s = start; a->elements[s] == 0 && s <= a->max_index; s++)
;
if (s > a->max_index)
return ((char *)NULL);
/* Starting at S, take NELEM elements, inclusive. */
for (i = 0, e = s; e <= a->max_index && i < nelem; e++) {
if (a->elements[e]) /* arrays are sparse */
i++;
}
a2 = array_slice(a, s, e);
wl = array_to_word_list(a2);
array_dispose(a2);
if (wl == 0)
return (char *)NULL;
t = string_list_pos_params(starsub ? '*' : '@', wl, quoted, pflags); /* XXX */
dispose_words(wl);
return t;
}
char *
array_patsub (a, pat, rep, mflags)
ARRAY *a;
char *pat, *rep;
int mflags;
{
char *t;
int pchar, qflags, pflags;
WORD_LIST *wl, *save;
if (a == 0 || array_head(a) == 0 || array_empty(a))
return ((char *)NULL);
wl = array_to_word_list(a);
if (wl == 0)
return (char *)NULL;
for (save = wl; wl; wl = wl->next) {
t = pat_subst (wl->word->word, pat, rep, mflags);
FREE (wl->word->word);
wl->word->word = t;
}
pchar = (mflags & MATCH_STARSUB) == MATCH_STARSUB ? '*' : '@';
qflags = (mflags & MATCH_QUOTED) == MATCH_QUOTED ? Q_DOUBLE_QUOTES : 0;
pflags = (mflags & MATCH_ASSIGNRHS) ? PF_ASSIGNRHS : 0;
t = string_list_pos_params (pchar, save, qflags, pflags);
dispose_words(save);
return t;
}
char *
array_modcase (a, pat, modop, mflags)
ARRAY *a;
char *pat;
int modop;
int mflags;
{
char *t;
int pchar, qflags, pflags;
WORD_LIST *wl, *save;
if (a == 0 || array_head(a) == 0 || array_empty(a))
return ((char *)NULL);
wl = array_to_word_list(a);
if (wl == 0)
return ((char *)NULL);
for (save = wl; wl; wl = wl->next) {
t = sh_modcase(wl->word->word, pat, modop);
FREE(wl->word->word);
wl->word->word = t;
}
pchar = (mflags & MATCH_STARSUB) == MATCH_STARSUB ? '*' : '@';
qflags = (mflags & MATCH_QUOTED) == MATCH_QUOTED ? Q_DOUBLE_QUOTES : 0;
pflags = (mflags & MATCH_ASSIGNRHS) ? PF_ASSIGNRHS : 0;
t = string_list_pos_params (pchar, save, qflags, pflags);
dispose_words(save);
return t;
}
/*
* Allocate and return a new array element with index INDEX and value
* VALUE.
*/
ARRAY_ELEMENT *
array_create_element(indx, value)
arrayind_t indx;
char *value;
{
ARRAY_ELEMENT *r;
r = (ARRAY_ELEMENT *)xmalloc(sizeof(ARRAY_ELEMENT));
r->ind = indx;
r->value = value ? savestring(value) : (char *)NULL;
return(r);
}
ARRAY_ELEMENT *
array_copy_element(ae)
ARRAY_ELEMENT *ae;
{
return(ae ? array_create_element(element_index(ae), element_value(ae))
: (ARRAY_ELEMENT *) NULL);
}
void
array_dispose_element(ae)
ARRAY_ELEMENT *ae;
{
if (ae) {
FREE(ae->value);
free(ae);
}
}
/*
* Add a new element with index I and value V to array A (a[i] = v).
*/
int
array_insert(a, i, v)
ARRAY *a;
arrayind_t i;
char *v;
{
register ARRAY_ELEMENT *new, *old;
arrayind_t nsize;
if (a == 0)
return(-1);
if (i >= a->alloc_size)
array_expand(a, i);
old = a->elements[i];
if (i > array_max_index(a))
a->max_index = i;
if (array_first_index(a) < 0 || i < array_first_index(a))
a->first_index = i;
if (old) { /* Replacing an existing element. */
free(element_value(old));
old->value = v ? savestring (v) : (char *)NULL;
old->ind = i;
return(0);
} else {
a->elements[i] = array_create_element(i, v);
a->num_elements++;
}
return (-1); /* problem */
}
/*
* Delete the element with index I from array A and return it so the
* caller can dispose of it.
*/
ARRAY_ELEMENT *
array_remove(a, i)
ARRAY *a;
arrayind_t i;
{
register ARRAY_ELEMENT *ae;
arrayind_t ind;
if (a == 0 || array_empty(a))
return((ARRAY_ELEMENT *) NULL);
if (i > array_max_index(a) || i < array_first_index(a))
return((ARRAY_ELEMENT *)NULL);
ae = a->elements[i];
a->elements[i] = 0;
if (ae) {
a->num_elements--;
if (a->num_elements == 0)
a->first_index = a->max_index == -1;
if (i == array_max_index(a)) {
for (ind = i; ind >= array_first_index(a); ind--)
if (a->elements[ind])
break;
a->max_index = ind;
}
if (i == array_first_index(a)) {
for (ind = i; ind <= array_max_index(a); ind++)
if (a->elements[ind])
break;
a->first_index = ind;
}
}
return (ae);
}
/*
* Return the value of a[i].
*/
char *
array_reference(a, i)
ARRAY *a;
arrayind_t i;
{
register ARRAY_ELEMENT *ae;
if (a == 0 || array_empty(a))
return((char *) NULL);
if (i > array_max_index(a) || i < array_first_index(a))
return((char *)NULL);
ae = a->elements[i];
return(ae ? element_value(ae) : (char *)NULL);
}
/* Convenience routines for the shell to translate to and from the form used
by the rest of the code. */
WORD_LIST *
array_to_word_list(a)
ARRAY *a;
{
register arrayind_t i;
WORD_LIST *list;
ARRAY_ELEMENT *ae;
if (a == 0 || array_empty(a))
return((WORD_LIST *)NULL);
list = (WORD_LIST *)NULL;
for (i = array_first_index(a); i <= array_max_index(a); i++) {
if ((ae = a->elements[i]) == 0)
continue;
list = make_word_list (make_bare_word(element_value(ae)), list);
}
return (REVERSE_LIST(list, WORD_LIST *));
}
ARRAY *
array_from_word_list (list)
WORD_LIST *list;
{
ARRAY *a;
if (list == 0)
return((ARRAY *)NULL);
a = array_create();
return (array_assign_list (a, list));
}
WORD_LIST *
array_keys_to_word_list(a)
ARRAY *a;
{
arrayind_t ind;
WORD_LIST *list;
ARRAY_ELEMENT *ae;
char *t;
if (a == 0 || array_empty(a))
return((WORD_LIST *)NULL);
list = (WORD_LIST *)NULL;
for (ind = array_first_index(a); ind <= array_max_index(a); ind++) {
if ((ae = a->elements[ind]) == 0)
continue;
t = itos(element_index(ae));
list = make_word_list (make_bare_word(t), list);
free(t);
}
return (REVERSE_LIST(list, WORD_LIST *));
}
WORD_LIST *
array_to_kvpair_list(a)
ARRAY *a;
{
arrayind_t ind;
WORD_LIST *list;
ARRAY_ELEMENT *ae;
char *k, *v;
if (a == 0 || array_empty(a))
return((WORD_LIST *)NULL);
list = (WORD_LIST *)NULL;
for (ind = array_first_index(a); ind <= array_max_index(a); ind++) {
if ((ae = a->elements[ind]) == 0)
continue;
k = itos(element_index(ae));
v = element_value (ae);
list = make_word_list (make_bare_word(k), list);
list = make_word_list (make_bare_word(v), list);
free(k);
}
return (REVERSE_LIST(list, WORD_LIST *));
}
ARRAY *
array_assign_list (array, list)
ARRAY *array;
WORD_LIST *list;
{
register WORD_LIST *l;
register arrayind_t i;
for (l = list, i = 0; l; l = l->next, i++)
array_insert(array, i, l->word->word);
return array;
}
char **
array_to_argv (a, countp)
ARRAY *a;
int *countp;
{
char **ret, *t;
int i;
arrayind_t ind;
ARRAY_ELEMENT *ae;
if (a == 0 || array_empty(a)) {
if (countp)
*countp = 0;
return ((char **)NULL);
}
ret = strvec_create (array_num_elements (a) + 1);
i = 0;
for (ind = array_first_index(a); ind <= array_max_index(a); ind++) {
if (a->elements[ind])
ret[i++] = savestring (element_value(a->elements[ind]));
}
ret[i] = (char *)NULL;
if (countp)
*countp = i;
return (ret);
}
ARRAY *
array_from_argv(a, vec, count)
ARRAY *a;
char **vec;
int count;
{
arrayind_t i;
char *t;
if (a == 0 || array_num_elements (a) == 0) {
for (i = 0; i < count; i++)
array_insert(a, i, vec[i]);
return a;
}
/* Fast case */
if (array_num_elements (a) == count && count == 1) {
t = vec[0] ? savestring (vec[0]) : 0;
ARRAY_VALUE_REPLACE(a, 0, t);
} else if (array_num_elements (a) <= count) {
/* modify in array_num_elements members in place, then add */
for (i = 0; i < array_num_elements (a); i++) {
t = vec[i] ? savestring (vec[i]) : 0;
ARRAY_VALUE_REPLACE(a, i, t);
}
/* add any more */
for ( ; i < count; i++)
array_insert(a, i, vec[i]);
} else {
/* deleting elements. replace the first COUNT, free the rest */
for (i = 0; i < count; i++) {
t = vec[i] ? savestring (vec[i]) : 0;
ARRAY_VALUE_REPLACE(a, i, t);
}
for ( ; i <= array_max_index (a); i++) {
array_dispose_element(a->elements[i]);
a->elements[i] = (ARRAY_ELEMENT *)NULL;
}
/* bookkeeping usually taken care of by array_insert */
set_max_index(a, count - 1);
set_first_index(a, 0);
set_num_elements(a, count);
}
return a;
}
/*
* Return the next non-null array element after A[IND]
*/
arrayind_t
element_forw(a, ind)
ARRAY *a;
arrayind_t ind;
{
register arrayind_t i;
for (i = ind + 1; i <= array_max_index(a); i++)
if (a->elements[i])
break;
if (a->elements[i])
return i;
return (array_max_index(a));
}
/*
* Return the previous non-null array element before A[IND]
*/
arrayind_t
element_back (a, ind)
ARRAY *a;
arrayind_t ind;
{
register arrayind_t i;
for (i = ind - 1; i >= array_first_index(a); i--)
if (a->elements[i])
break;
if (a->elements[i] && i >= array_first_index(a))
return i;
return (array_first_index(a));
}
/*
* Return a string that is the concatenation of the elements in A from START
* to END, separated by SEP.
*/
static char *
array_to_string_internal (a, start, end, sep, quoted)
ARRAY *a;
arrayind_t start, end;
char *sep;
int quoted;
{
arrayind_t i;
char *result, *t;
ARRAY_ELEMENT *ae;
int slen, rsize, rlen, reg;
slen = strlen(sep);
result = NULL;
for (rsize = rlen = 0, i = start; i <= end; i++) {
if ((ae = a->elements[i]) == 0)
continue;
if (rsize == 0)
result = (char *)xmalloc (rsize = 64);
if (element_value(ae)) {
t = quoted ? quote_string(element_value(ae)) : element_value(ae);
reg = strlen(t);
RESIZE_MALLOCED_BUFFER (result, rlen, (reg + slen + 2),
rsize, rsize);
strcpy(result + rlen, t);
rlen += reg;
if (quoted)
free(t);
/*
* Add a separator only after non-null elements.
*/
if (element_forw(a, i) <= end) {
strcpy(result + rlen, sep);
rlen += slen;
}
}
}
if (result)
result[rlen] = '\0'; /* XXX */
return(result);
}
char *
array_to_kvpair (a, quoted)
ARRAY *a;
int quoted;
{
arrayind_t ind;
char *result, *valstr, *is;
char indstr[INT_STRLEN_BOUND(intmax_t) + 1];
ARRAY_ELEMENT *ae;
int rsize, rlen, elen;
if (a == 0 || array_empty (a))
return((char *)NULL);
result = (char *)xmalloc (rsize = 128);
result[rlen = 0] = '\0';
for (ind = array_first_index(a); ind <= array_max_index(a); ind++) {
if ((ae = a->elements[ind]) == 0)
continue;
is = inttostr (element_index(ae), indstr, sizeof(indstr));
valstr = element_value (ae) ?
(ansic_shouldquote (element_value (ae)) ?
ansic_quote (element_value(ae), 0, (int *)0) :
sh_double_quote (element_value (ae)))
: (char *)NULL;
elen = STRLEN (is) + 8 + STRLEN (valstr);
RESIZE_MALLOCED_BUFFER (result, rlen, (elen + 1), rsize, rsize);
strcpy (result + rlen, is);
rlen += STRLEN (is);
result[rlen++] = ' ';
if (valstr) {
strcpy (result + rlen, valstr);
rlen += STRLEN (valstr);
} else {
strcpy (result + rlen, "\"\"");
rlen += 2;
}
if (ind < array_max_index (a))
result[rlen++] = ' ';
FREE (valstr);
}
RESIZE_MALLOCED_BUFFER (result, rlen, 1, rsize, 8);
result[rlen] = '\0';
if (quoted) {
/* This is not as efficient as it could be... */
valstr = sh_single_quote (result);
free (result);
result = valstr;
}
return(result);
}
char *
array_to_assign (a, quoted)
ARRAY *a;
int quoted;
{
arrayind_t ind;
char *result, *valstr, *is;
char indstr[INT_STRLEN_BOUND(intmax_t) + 1];
ARRAY_ELEMENT *ae;
int rsize, rlen, elen;
if (a == 0 || array_empty (a))
return((char *)NULL);
result = (char *)xmalloc (rsize = 128);
result[0] = '(';
rlen = 1;
for (ind = array_first_index(a); ind <= array_max_index(a); ind++) {
if ((ae = a->elements[ind]) == 0)
continue;
is = inttostr (element_index(ae), indstr, sizeof(indstr));
valstr = element_value (ae) ?
(ansic_shouldquote (element_value (ae)) ?
ansic_quote (element_value(ae), 0, (int *)0) :
sh_double_quote (element_value (ae)))
: (char *)NULL;
elen = STRLEN (is) + 8 + STRLEN (valstr);
RESIZE_MALLOCED_BUFFER (result, rlen, (elen + 1), rsize, rsize);
result[rlen++] = '[';
strcpy (result + rlen, is);
rlen += STRLEN (is);
result[rlen++] = ']';
result[rlen++] = '=';
if (valstr) {
strcpy (result + rlen, valstr);
rlen += STRLEN (valstr);
}
if (ind < array_max_index(a))
result[rlen++] = ' ';
FREE (valstr);
}
RESIZE_MALLOCED_BUFFER (result, rlen, 1, rsize, 8);
result[rlen++] = ')';
result[rlen] = '\0';
if (quoted) {
/* This is not as efficient as it could be... */
valstr = sh_single_quote (result);
free (result);
result = valstr;
}
return(result);
}
char *
array_to_string (a, sep, quoted)
ARRAY *a;
char *sep;
int quoted;
{
if (a == 0)
return((char *)NULL);
if (array_empty(a))
return(savestring(""));
return (array_to_string_internal (a, array_first_index(a), array_max_index(a), sep, quoted));
}
#if defined (INCLUDE_UNUSED) || defined (TEST_ARRAY)
/*
* Return an array consisting of elements in S, separated by SEP
*/
ARRAY *
array_from_string(s, sep)
char *s, *sep;
{
ARRAY *a;
WORD_LIST *w;
if (s == 0)
return((ARRAY *)NULL);
w = list_string (s, sep, 0);
if (w == 0)
return((ARRAY *)NULL);
a = array_from_word_list (w);
return (a);
}
#endif
#if defined (TEST_ARRAY)
/*
* To make a running version, compile -DTEST_ARRAY and link with:
* xmalloc.o syntax.o lib/malloc/libmalloc.a lib/sh/libsh.a
*/
int interrupt_immediately = 0;
int
signal_is_trapped(s)
int s;
{
return 0;
}
void
fatal_error(const char *s, ...)
{
fprintf(stderr, "array_test: fatal memory error\n");
abort();
}
void
programming_error(const char *s, ...)
{
fprintf(stderr, "array_test: fatal programming error\n");
abort();
}
WORD_DESC *
make_bare_word (s)
const char *s;
{
WORD_DESC *w;
w = (WORD_DESC *)xmalloc(sizeof(WORD_DESC));
w->word = s ? savestring(s) : savestring ("");
w->flags = 0;
return w;
}
WORD_LIST *
make_word_list(x, l)
WORD_DESC *x;
WORD_LIST *l;
{
WORD_LIST *w;
w = (WORD_LIST *)xmalloc(sizeof(WORD_LIST));
w->word = x;
w->next = l;
return w;
}
WORD_LIST *
list_string(s, t, i)
char *s, *t;
int i;
{
char *r, *a;
WORD_LIST *wl;
if (s == 0)
return (WORD_LIST *)NULL;
r = savestring(s);
wl = (WORD_LIST *)NULL;
a = strtok(r, t);
while (a) {
wl = make_word_list (make_bare_word(a), wl);
a = strtok((char *)NULL, t);
}
return (REVERSE_LIST (wl, WORD_LIST *));
}
GENERIC_LIST *
list_reverse (list)
GENERIC_LIST *list;
{
register GENERIC_LIST *next, *prev;
for (prev = 0; list; ) {
next = list->next;
list->next = prev;
prev = list;
list = next;
}
return prev;
}
char *
pat_subst(s, t, u, i)
char *s, *t, *u;
int i;
{
return ((char *)NULL);
}
char *
quote_string(s)
char *s;
{
return savestring(s);
}
print_element(ae)
ARRAY_ELEMENT *ae;
{
char lbuf[INT_STRLEN_BOUND (intmax_t) + 1];
printf("array[%s] = %s\n",
inttostr (element_index(ae), lbuf, sizeof (lbuf)),
element_value(ae));
}
print_array(a)
ARRAY *a;
{
printf("\n");
array_walk(a, print_element, (void *)NULL);
}
main()
{
ARRAY *a, *new_a, *copy_of_a;
ARRAY_ELEMENT *ae, *aew;
char *s;
a = array_create();
array_insert(a, 1, "one");
array_insert(a, 7, "seven");
array_insert(a, 4, "four");
array_insert(a, 1029, "one thousand twenty-nine");
array_insert(a, 12, "twelve");
array_insert(a, 42, "forty-two");
print_array(a);
s = array_to_string (a, " ", 0);
printf("s = %s\n", s);
copy_of_a = array_from_string(s, " ");
printf("copy_of_a:");
print_array(copy_of_a);
array_dispose(copy_of_a);
printf("\n");
free(s);
ae = array_remove(a, 4);
array_dispose_element(ae);
ae = array_remove(a, 1029);
array_dispose_element(ae);
array_insert(a, 16, "sixteen");
print_array(a);
s = array_to_string (a, " ", 0);
printf("s = %s\n", s);
copy_of_a = array_from_string(s, " ");
printf("copy_of_a:");
print_array(copy_of_a);
array_dispose(copy_of_a);
printf("\n");
free(s);
array_insert(a, 2, "two");
array_insert(a, 1029, "new one thousand twenty-nine");
array_insert(a, 0, "zero");
array_insert(a, 134, "");
print_array(a);
s = array_to_string (a, ":", 0);
printf("s = %s\n", s);
copy_of_a = array_from_string(s, ":");
printf("copy_of_a:");
print_array(copy_of_a);
array_dispose(copy_of_a);
printf("\n");
free(s);
new_a = array_copy(a);
print_array(new_a);
s = array_to_string (new_a, ":", 0);
printf("s = %s\n", s);
copy_of_a = array_from_string(s, ":");
free(s);
printf("copy_of_a:");
print_array(copy_of_a);
array_shift(copy_of_a, 2, AS_DISPOSE);
printf("copy_of_a shifted by two:");
print_array(copy_of_a);
ae = array_shift(copy_of_a, 2, 0);
printf("copy_of_a shifted by two:");
print_array(copy_of_a);
for ( ; ae; ) {
aew = element_forw(ae);
array_dispose_element(ae);
ae = aew;
}
array_rshift(copy_of_a, 1, (char *)0);
printf("copy_of_a rshift by 1:");
print_array(copy_of_a);
array_rshift(copy_of_a, 2, "new element zero");
printf("copy_of_a rshift again by 2 with new element zero:");
print_array(copy_of_a);
s = array_to_assign(copy_of_a, 0);
printf("copy_of_a=%s\n", s);
free(s);
ae = array_shift(copy_of_a, array_num_elements(copy_of_a), 0);
for ( ; ae; ) {
aew = element_forw(ae);
array_dispose_element(ae);
ae = aew;
}
array_dispose(copy_of_a);
printf("\n");
array_dispose(a);
array_dispose(new_a);
}
#endif /* TEST_ARRAY */
#endif /* ARRAY_VARS */