608 lines
12 KiB
C
608 lines
12 KiB
C
/*
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* array.c - functions to create, destroy, access, and manipulate arrays
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* of strings.
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*
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* Arrays are sparse doubly-linked lists. An element's index is stored
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* with it.
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*
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* Chet Ramey
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* chet@ins.cwru.edu
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*/
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#include "config.h"
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#if defined (ARRAY_VARS)
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#if defined (HAVE_UNISTD_H)
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# include <unistd.h>
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#endif
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#include <stdio.h>
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#include "bashansi.h"
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#include "shell.h"
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#include "array.h"
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#include "builtins/common.h"
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extern char *quote_string (); /* XXX */
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#define ADD_BEFORE(ae, new) \
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do { \
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ae->prev->next = new; \
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new->prev = ae->prev; \
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ae->prev = new; \
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new->next = ae; \
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} while(0)
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/*
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* Allocate and return a new array element with index INDEX and value
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* VALUE.
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*/
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ARRAY_ELEMENT *
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new_array_element(indx, value)
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arrayind_t indx;
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char *value;
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{
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ARRAY_ELEMENT *r;
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r = (ARRAY_ELEMENT *) xmalloc(sizeof(ARRAY_ELEMENT));
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r->ind = indx;
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r->value = value ? savestring(value) : (char *)NULL;
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r->next = r->prev = (ARRAY_ELEMENT *) NULL;
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return(r);
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}
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void
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destroy_array_element(ae)
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ARRAY_ELEMENT *ae;
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{
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FREE(ae->value);
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free(ae);
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}
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ARRAY *
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new_array()
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{
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ARRAY *r;
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ARRAY_ELEMENT *head;
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r =(ARRAY *) xmalloc(sizeof(ARRAY));
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r->type = array_indexed;
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r->max_index = r->max_size = -1;
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r->num_elements = 0;
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head = new_array_element(-1, (char *)NULL); /* dummy head */
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head->prev = head->next = head;
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r->head = head;
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return(r);
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}
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void
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empty_array (a)
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ARRAY *a;
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{
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register ARRAY_ELEMENT *r, *r1;
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if (a == 0)
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return;
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for (r = element_forw(a->head); r != a->head; ) {
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r1 = element_forw(r);
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destroy_array_element(r);
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r = r1;
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}
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a->head->next = a->head->prev = a->head;
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a->max_index = a->max_size = -1;
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a->num_elements = a->max_size = 0;
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}
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void
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dispose_array(a)
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ARRAY *a;
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{
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if (a == 0)
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return;
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empty_array (a);
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destroy_array_element(a->head);
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free(a);
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}
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ARRAY *
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dup_array(a)
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ARRAY *a;
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{
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ARRAY *a1;
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ARRAY_ELEMENT *ae, *new;
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if (!a)
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return((ARRAY *) NULL);
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a1 = new_array();
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a1->type = a->type;
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a1->max_index = a->max_index;
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a1->num_elements = a->num_elements;
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a1->max_size = a->max_size;
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for (ae = element_forw(a->head); ae != a->head; ae = element_forw(ae)) {
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new = new_array_element(element_index(ae), element_value(ae));
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ADD_BEFORE(a1->head, new);
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}
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return(a1);
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}
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#ifdef INCLUDE_UNUSED
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/*
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* Make and return a new array composed of the elements in array A from
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* S to E, inclusive.
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*/
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ARRAY *
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dup_array_subrange(array, s, e)
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ARRAY *array;
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ARRAY_ELEMENT *s, *e;
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{
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ARRAY *a;
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ARRAY_ELEMENT *p, *n;
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int i;
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a = new_array ();
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a->type = array->type;
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for (p = s, i = 0; p != e; p = element_forw(p), i++) {
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n = new_array_element (i, element_value(p));
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ADD_BEFORE(a->head, n);
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}
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a->num_elements = a->max_index = i;
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return a;
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}
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#endif
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ARRAY_ELEMENT *
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copy_array_element(ae)
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ARRAY_ELEMENT *ae;
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{
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return(ae ? new_array_element(element_index(ae), element_value(ae))
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: (ARRAY_ELEMENT *) NULL);
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}
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/*
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* Add a new element with index I and value V to array A (a[i] = v).
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*/
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int
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array_add_element(a, i, v)
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ARRAY *a;
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arrayind_t i;
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char *v;
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{
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register ARRAY_ELEMENT *new, *ae;
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if (!a)
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return(-1);
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new = new_array_element(i, v);
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if (i > array_max_index(a)) {
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/*
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* Hook onto the end. This also works for an empty array.
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* Fast path for the common case of allocating arrays
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* sequentially.
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*/
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ADD_BEFORE(a->head, new);
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a->max_index = i;
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a->num_elements++;
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return(0);
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}
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/*
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* Otherwise we search for the spot to insert it.
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*/
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for (ae = element_forw(a->head); ae != a->head; ae = element_forw(ae)) {
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if (element_index(ae) == i) {
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/*
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* Replacing an existing element.
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*/
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destroy_array_element(new);
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free(element_value(ae));
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ae->value = savestring(v);
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return(0);
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} else if (element_index(ae) > i) {
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ADD_BEFORE(ae, new);
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a->num_elements++;
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return(0);
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}
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}
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return (-1); /* problem */
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}
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/*
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* Delete the element with index I from array A and return it so the
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* caller can dispose of it.
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*/
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ARRAY_ELEMENT *
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array_delete_element(a, i)
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ARRAY *a;
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arrayind_t i;
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{
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register ARRAY_ELEMENT *ae;
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if (!a || array_empty(a))
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return((ARRAY_ELEMENT *) NULL);
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for (ae = element_forw(a->head); ae != a->head; ae = element_forw(ae))
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if (element_index(ae) == i) {
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ae->next->prev = ae->prev;
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ae->prev->next = ae->next;
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a->num_elements--;
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if (i == array_max_index(a))
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a->max_index = element_index(ae->prev);
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return(ae);
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}
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return((ARRAY_ELEMENT *) NULL);
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}
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/*
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* Return the value of a[i].
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*/
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char *
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array_reference(a, i)
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ARRAY *a;
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arrayind_t i;
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{
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register ARRAY_ELEMENT *ae;
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if (a == 0 || array_empty(a))
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return((char *) NULL);
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for (ae = element_forw(a->head); ae != a->head; ae = element_forw(ae))
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if (element_index(ae) == i)
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return(element_value(ae));
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return((char *) NULL);
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}
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/*
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* Walk the array, calling FUNC once for each element, with the array
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* element as the argument.
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*/
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void
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array_walk(a, func)
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ARRAY *a;
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Function *func;
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{
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register ARRAY_ELEMENT *ae;
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if (a == 0 || array_empty(a))
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return;
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for (ae = element_forw(a->head); ae != a->head; ae = element_forw(ae))
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(*func)(ae);
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}
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/*
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* Return a string that is the concatenation of all the elements in A,
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* separated by SEP.
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*/
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static char *
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array_to_string_internal (start, end, sep, quoted)
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ARRAY_ELEMENT *start, *end;
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char *sep;
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int quoted;
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{
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char *result, *t;
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ARRAY_ELEMENT *ae;
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int slen, rsize, rlen, reg;
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if (start == end) /* XXX - should not happen */
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return ((char *)NULL);
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slen = strlen(sep);
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for (rsize = rlen = 0, ae = start; ae != end; ae = element_forw(ae)) {
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if (rsize == 0)
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result = xmalloc (rsize = 64);
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if (element_value(ae)) {
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t = quoted ? quote_string(element_value(ae)) : element_value(ae);
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reg = strlen(t);
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RESIZE_MALLOCED_BUFFER (result, rlen, (reg + slen + 2),
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rsize, rsize);
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strcpy(result + rlen, t);
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rlen += reg;
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if (quoted && t)
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free(t);
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/*
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* Add a separator only after non-null elements.
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*/
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if (element_forw(ae) != end) {
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strcpy(result + rlen, sep);
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rlen += slen;
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}
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}
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}
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result[rlen] = '\0'; /* XXX */
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return(result);
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}
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char *
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array_to_string (a, sep, quoted)
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ARRAY *a;
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char *sep;
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int quoted;
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{
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if (a == 0)
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return((char *)NULL);
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if (array_empty(a))
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return(savestring(""));
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return (array_to_string_internal (element_forw(a->head), a->head, sep, quoted));
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}
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char *
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array_to_assignment_string (a)
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ARRAY *a;
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{
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char *result, *indstr, *valstr;
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ARRAY_ELEMENT *ae;
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int rsize, rlen, elen;
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if (a == 0 || array_empty (a))
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return((char *)NULL);
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result = xmalloc (rsize = 128);
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result[0] = '(';
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rlen = 1;
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for (ae = element_forw(a->head); ae != a->head; ae = element_forw(ae)) {
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indstr = itos (element_index(ae));
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valstr = element_value (ae) ? double_quote (element_value(ae))
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: (char *)NULL;
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elen = STRLEN (indstr) + 8 + STRLEN (valstr);
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RESIZE_MALLOCED_BUFFER (result, rlen, (elen + 1), rsize, rsize);
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result[rlen++] = '[';
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strcpy (result + rlen, indstr);
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rlen += STRLEN (indstr);
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result[rlen++] = ']';
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result[rlen++] = '=';
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if (valstr) {
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strcpy (result + rlen, valstr);
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rlen += STRLEN (valstr);
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}
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if (element_forw(ae) != a->head)
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result[rlen++] = ' ';
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FREE (indstr);
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FREE (valstr);
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}
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RESIZE_MALLOCED_BUFFER (result, rlen, 1, rsize, 8);
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result[rlen++] = ')';
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result[rlen] = '\0';
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return(result);
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}
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char *
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quoted_array_assignment_string (a)
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ARRAY *a;
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{
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char *vstr, *sv;
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sv = array_to_assignment_string (a);
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if (sv == 0)
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return ((char *)NULL);
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vstr = single_quote (sv);
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free (sv);
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return (vstr);
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}
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#if 0
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/* Determine if s2 occurs in s1. If so, return a pointer to the
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match in s1. The compare is case sensitive. */
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static char *
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sindex (s1, s2)
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register char *s1, *s2;
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{
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register int i, l, len;
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for (i = 0, l = strlen(s2), len = strlen(s1); (len - i) >= l; i++)
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if (strncmp (s1 + i, s2, l) == 0)
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return (s1 + i);
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return ((char *)NULL);
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}
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#endif
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#if defined (INCLUDE_UNUSED) || defined (TEST_ARRAY)
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/*
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* Return an array consisting of elements in S, separated by SEP
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*/
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ARRAY *
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string_to_array(s, sep)
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char *s, *sep;
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{
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ARRAY *a;
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WORD_LIST *w;
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if (s == 0)
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return((ARRAY *)NULL);
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w = list_string (s, sep, 0);
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if (w == 0)
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return((ARRAY *)NULL);
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a = word_list_to_array (w);
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return (a);
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}
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#endif
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/* Convenience routines for the shell to translate to and from the form used
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by the rest of the code. */
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WORD_LIST *
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array_to_word_list(a)
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ARRAY *a;
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{
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WORD_LIST *list;
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ARRAY_ELEMENT *ae;
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if (a == 0 || array_empty(a))
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return((WORD_LIST *)NULL);
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list = (WORD_LIST *)NULL;
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for (ae = element_forw(a->head); ae != a->head; ae = element_forw(ae))
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list = make_word_list (make_bare_word(element_value(ae)), list);
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return (REVERSE_LIST(list, WORD_LIST *));
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}
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ARRAY *
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assign_word_list (array, list)
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ARRAY *array;
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WORD_LIST *list;
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{
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register WORD_LIST *l;
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register arrayind_t i;
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for (l = list, i = 0; l; l = l->next, i++)
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array_add_element(array, i, l->word->word);
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return array;
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}
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ARRAY *
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word_list_to_array (list)
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WORD_LIST *list;
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{
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ARRAY *a;
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if (list == 0)
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return((ARRAY *)NULL);
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a = new_array();
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return (assign_word_list (a, list));
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}
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ARRAY *
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array_quote(array)
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ARRAY *array;
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{
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ARRAY_ELEMENT *a;
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char *t;
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if (array == 0 || array->head == 0 || array_empty (array))
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return (ARRAY *)NULL;
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for (a = element_forw(array->head); a != array->head; a = element_forw(a)) {
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t = quote_string (a->value);
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FREE(a->value);
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a->value = t;
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}
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return array;
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}
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char *
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array_subrange (a, start, end, quoted)
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ARRAY *a;
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int start, end, quoted;
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{
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ARRAY_ELEMENT *h, *p;
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int i;
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p = array_head (a);
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if (p == 0 || array_empty (a) || start > array_num_elements (a))
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return ((char *)NULL);
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for (i = 0, p = element_forw(p); p != a->head && i < start; i++, p = element_forw(p))
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;
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if (p == a->head)
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return ((char *)NULL);
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for (h = p; p != a->head && i < end; i++, p = element_forw(p))
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;
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return (array_to_string_internal (h, p, " ", quoted));
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}
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char *
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array_pat_subst (a, pat, rep, mflags)
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ARRAY *a;
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char *pat, *rep;
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int mflags;
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{
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ARRAY *a2;
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ARRAY_ELEMENT *e;
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char *t;
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if (array_head (a) == 0 || array_empty (a))
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return ((char *)NULL);
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a2 = dup_array (a);
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for (e = element_forw(a2->head); e != a2->head; e = element_forw(e)) {
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t = pat_subst(element_value(e), pat, rep, mflags);
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FREE(element_value(e));
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e->value = t;
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}
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if (mflags & MATCH_QUOTED)
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array_quote (a2);
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t = array_to_string (a2, " ", 0);
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dispose_array (a2);
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return t;
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}
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#if defined (TEST_ARRAY)
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print_element(ae)
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ARRAY_ELEMENT *ae;
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{
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printf("array[%d] = %s\n",(int)element_index(ae), element_value(ae));
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}
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print_array(a)
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ARRAY *a;
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{
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printf("\n");
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array_walk(a, print_element);
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}
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main()
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{
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ARRAY *a, *new_a, *copy_of_a;
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ARRAY_ELEMENT *ae;
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char *s;
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a = new_array();
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array_add_element(a, 1, "one");
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array_add_element(a, 7, "seven");
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array_add_element(a, 4, "four");
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array_add_element(a, 1029, "one thousand twenty-nine");
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array_add_element(a, 12, "twelve");
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array_add_element(a, 42, "forty-two");
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print_array(a);
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s = array_to_string (a, " ", 0);
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printf("s = %s\n", s);
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copy_of_a = string_to_array(s, " ");
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printf("copy_of_a:");
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print_array(copy_of_a);
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dispose_array(copy_of_a);
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|
printf("\n");
|
|
free(s);
|
|
ae = array_delete_element(a, 4);
|
|
destroy_array_element(ae);
|
|
ae = array_delete_element(a, 1029);
|
|
destroy_array_element(ae);
|
|
array_add_element(a, 16, "sixteen");
|
|
print_array(a);
|
|
s = array_to_string (a, " ", 0);
|
|
printf("s = %s\n", s);
|
|
copy_of_a = string_to_array(s, " ");
|
|
printf("copy_of_a:");
|
|
print_array(copy_of_a);
|
|
dispose_array(copy_of_a);
|
|
printf("\n");
|
|
free(s);
|
|
array_add_element(a, 2, "two");
|
|
array_add_element(a, 1029, "new one thousand twenty-nine");
|
|
array_add_element(a, 0, "zero");
|
|
array_add_element(a, 134, "");
|
|
print_array(a);
|
|
s = array_to_string (a, ":", 0);
|
|
printf("s = %s\n", s);
|
|
copy_of_a = string_to_array(s, ":");
|
|
printf("copy_of_a:");
|
|
print_array(copy_of_a);
|
|
dispose_array(copy_of_a);
|
|
printf("\n");
|
|
free(s);
|
|
new_a = copy_array(a);
|
|
print_array(new_a);
|
|
s = array_to_string (new_a, ":", 0);
|
|
printf("s = %s\n", s);
|
|
copy_of_a = string_to_array(s, ":", 0);
|
|
printf("copy_of_a:");
|
|
print_array(copy_of_a);
|
|
dispose_array(copy_of_a);
|
|
printf("\n");
|
|
free(s);
|
|
dispose_array(a);
|
|
dispose_array(new_a);
|
|
}
|
|
|
|
#endif /* TEST_ARRAY */
|
|
#endif /* ARRAY_VARS */
|