-const char list_rcs[] = "$Id: list.c,v 1.7 2001/08/05 16:06:20 jongfoster Exp $";
+const char list_rcs[] = "$Id: list.c,v 1.8 2001/08/07 14:00:20 oes Exp $";
/*********************************************************************
*
* File : $Source: /cvsroot/ijbswa/current/list.c,v $
*
* Revisions :
* $Log: list.c,v $
+ * Revision 1.8 2001/08/07 14:00:20 oes
+ * Fixed comment
+ *
* Revision 1.7 2001/08/05 16:06:20 jongfoster
* Modifiying "struct map" so that there are now separate header and
* "map_entry" structures. This means that functions which modify a
#include <ctype.h>
#include <string.h>
-#include <assert.h>
-
#ifndef _WIN32
#include <unistd.h>
#endif
+#include <assert.h>
+
#include "project.h"
#include "jcc.h"
#include "list.h"
const char list_h_rcs[] = LIST_H_VERSION;
+/*********************************************************************
+ *
+ * Function : list_init
+ *
+ * Description : Create a new, empty list in user-allocated memory.
+ * Caller should allocate a "struct list" variable,
+ * then pass it to this function.
+ * (Implementation note: Rather than calling this
+ * function, you can also just memset the memory to
+ * zero, e.g. if you have a larger structure you
+ * want to initialize quickly. However, that isn't
+ * really good design.)
+ *
+ * Parameters :
+ * 1 : the_list = pointer to list
+ *
+ * Returns : N/A
+ *
+ *********************************************************************/
+void init_list(struct list *the_list)
+{
+ memset(the_list, '\0', sizeof(*the_list));
+}
+
+
+/*********************************************************************
+ *
+ * Function : destroy_list
+ *
+ * Description : Destroy a string list (opposite of list_init).
+ * On return, the memory used by the list entries has
+ * been freed, but not the memory used by the_list
+ * itself. You should not re-use the_list without
+ * calling list_init().
+ *
+ * (Implementation note: You *can* reuse the_list
+ * without calling list_init(), but please don't.
+ * If you want to remove all entries from a list
+ * and still have a usable list, then use
+ * list_remove_all().)
+ *
+ * Parameters :
+ * 1 : the_list = pointer to list
+ *
+ * Returns : N/A
+ *
+ *********************************************************************/
+void destroy_list (struct list *the_list)
+{
+ struct list_entry *cur_entry, *next_entry;
+
+ assert(the_list);
+
+ for (cur_entry = the_list->first; cur_entry ; cur_entry = next_entry)
+ {
+ next_entry = cur_entry->next;
+ freez((char *)cur_entry->str);
+ free(cur_entry);
+ }
+
+ the_list->first = NULL;
+ the_list->last = NULL;
+}
+
+
+/*********************************************************************
+ *
+ * Function : list_is_valid
+ *
+ * Description : Check that a string list is valid. The intended
+ * usage is "assert(list_is_valid(the_list))".
+ * Currently this checks that "the_list->last"
+ * is correct, and that the list dosn't contain
+ * circular references. It is likely to crash if
+ * it's passed complete garbage.
+ *
+ * Parameters :
+ * 1 : the_list = pointer to list. Must be non-null.
+ *
+ * Returns : 1 if list is valid, 0 otherwise.
+ *
+ *********************************************************************/
+static int list_is_valid (const struct list *the_list)
+{
+ /*
+ * If you don't want this check, just change the line below
+ * from "#if 1" to "#if 0".
+ */
+#if 1
+ const struct list_entry *cur_entry;
+ const struct list_entry *last_entry = NULL;
+ int length = 0;
+
+ assert(the_list);
+
+ for (cur_entry = the_list->first; cur_entry ; cur_entry = cur_entry->next)
+ {
+ last_entry = cur_entry;
+
+ if (cur_entry->str)
+ {
+ /*
+ * Just check that this string can be accessed - i.e. it's a valid
+ * pointer.
+ */
+ strlen(cur_entry->str);
+ }
+
+ /*
+ * Check for looping back to first
+ */
+ if ((length != 0) && (cur_entry == the_list->first))
+ {
+ return 0;
+ }
+
+ /*
+ * Arbitrarily limit length to prevent infinite loops.
+ */
+ if (++length > 1000)
+ {
+ return 0;
+ }
+
+ /*
+ * Check this isn't marked as the last entry, unless of course it's
+ * *really* the last entry.
+ */
+ if ((the_list->last == cur_entry) && (cur_entry->next != NULL))
+ {
+ /* This is the last entry, but there's data after it !!?? */
+ return 0;
+ }
+ }
+
+ return (the_list->last == last_entry);
+#else
+ return 1;
+#endif
+}
+
/*********************************************************************
*
* Function : enlist
* Description : Append a string into a specified string list.
*
* Parameters :
- * 1 : header = pointer to list 'dummy' header
+ * 1 : the_list = pointer to list
* 2 : str = string to add to the list (maybe NULL)
*
- * Returns : N/A
+ * Returns : 0 on success, nonzero on out-of-memory error. On
+ * error, the_list will be unchanged.
*
*********************************************************************/
-void enlist(struct list *header, const char *str)
+int enlist(struct list *the_list, const char *str)
{
- struct list *cur = (struct list *)malloc(sizeof(*cur));
- struct list *last;
+ struct list_entry *cur;
- if (cur)
+ assert(the_list);
+ assert(list_is_valid(the_list));
+
+ if (NULL == (cur = (struct list_entry *)zalloc(sizeof(*cur))))
{
- cur->str = (str ? strdup(str) : NULL);
- cur->next = NULL;
+ return 1;
+ }
- last = header->last;
- if (last == NULL)
+ if (str)
+ {
+ if (NULL == (cur->str = strdup(str)))
{
- last = header;
+ free(cur);
+ return 1;
}
+ }
+ /* else { cur->str = NULL; } - implied by zalloc */
+
+ /* cur->next = NULL; - implied by zalloc */
- last->next = cur;
- header->last = cur;
+ if (the_list->last)
+ {
+ the_list->last->next = cur;
+ the_list->last = cur;
+ }
+ else
+ {
+ the_list->first = cur;
+ the_list->last = cur;
}
+ assert(list_is_valid(the_list));
+ return 0;
}
* string list.
*
* Parameters :
- * 1 : header = pointer to list 'dummy' header
+ * 1 : the_list = pointer to list
* 2 : str = string to add to the list (maybe NULL)
*
- * Returns : N/A
+ * Returns : 0 on success, nonzero on out-of-memory error. On
+ * error, the_list will be unchanged.
*
*********************************************************************/
-void enlist_first(struct list *header, const char *str)
+int enlist_first(struct list *the_list, const char *str)
{
- struct list *cur = (struct list *)malloc(sizeof(*cur));
+ struct list_entry *cur;
+
+ assert(the_list);
+ assert(list_is_valid(the_list));
- if (cur)
+ if (NULL == (cur = (struct list_entry *)zalloc(sizeof(*cur))))
{
- cur->str = (str ? strdup(str) : NULL);
- cur->next = header->next;
+ return 1;
+ }
- header->next = cur;
- if (header->last == NULL)
+ if (str)
+ {
+ if (NULL == (cur->str = strdup(str)))
{
- header->last = cur;
+ free(cur);
+ return 1;
}
}
+ /* else { cur->str = NULL; } - implied by zalloc */
+
+ cur->next = the_list->first;
+
+ the_list->first = cur;
+ if (the_list->last == NULL)
+ {
+ the_list->last = cur;
+ }
+ assert(list_is_valid(the_list));
+ return 0;
}
*
* Description : Append a string into a specified string list,
* if & only if it's not there already.
- * If the n argument is nonzero, only compare up to
- * the nth character.
+ * If the num_significant_chars argument is nonzero,
+ * only compare up to the nth character.
*
* Parameters :
- * 1 : header = pointer to list 'dummy' header
- * 2 : str = string to add to the list (maybe NULL)
- * 3 : n = number of chars to use for uniqueness test
+ * 1 : the_list = pointer to list
+ * 2 : str = string to add to the list
+ * 3 : num_significant_chars = number of chars to use
+ * for uniqueness test, or 0 to require an exact match.
*
- * Returns : N/A
+ * Returns : 0 on success, nonzero on out-of-memory error. On
+ * error, the_list will be unchanged. "Success"
+ * does not indicate whether or not the item was
+ * already in the list.
*
*********************************************************************/
-void enlist_unique(struct list *header, const char *str, int n)
+int enlist_unique(struct list *the_list, const char *str,
+ int num_significant_chars)
{
- struct list *last;
- struct list *cur = header->next;
+ struct list_entry *cur_entry;
- while (cur != NULL)
+ assert(the_list);
+ assert(list_is_valid(the_list));
+ assert(str);
+ assert(num_significant_chars >= 0);
+ assert((size_t)num_significant_chars <= strlen(str));
+
+ if (num_significant_chars > 0)
{
- if ((cur->str != NULL) && (
- (n && (0 == strncmp(str, cur->str, n))) ||
- (!n && (0 == strcmp(str, cur->str)))))
+ for (cur_entry = the_list->first; cur_entry != NULL; cur_entry = cur_entry->next)
{
- /* Already there */
- return;
+ if ( (cur_entry->str != NULL)
+ && (0 == strncmp(str, cur_entry->str, num_significant_chars)))
+ {
+ /* Already there */
+ return 0;
+ }
}
- cur = cur->next;
}
-
- cur = (struct list *)malloc(sizeof(*cur));
-
- if (cur != NULL)
+ else
{
- cur->str = (str ? strdup(str) : NULL); /* FIXME check retval */
- cur->next = NULL;
-
- last = header->last;
- if (last == NULL)
+ /* Test whole string */
+ for (cur_entry = the_list->first; cur_entry != NULL; cur_entry = cur_entry->next)
{
- last = header;
+ if ( (cur_entry->str != NULL) && (0 == strcmp(str, cur_entry->str)))
+ {
+ /* Already there */
+ return 0;
+ }
}
- last->next = cur;
- header->last = cur;
}
+
+ return enlist(the_list, str);
}
* if & only if there isn't already a header with that name.
*
* Parameters :
- * 1 : header = pointer to list 'dummy' header
- * 2 : name = name of header to be added
- * 3 : value = value of header to be added
+ * 1 : the_list = pointer to list
+ * 2 : name = HTTP header name (e.g. "Content-type")
+ * 3 : value = HTTP header value (e.g. "text/html")
*
- * Returns : N/A
+ * Returns : 0 on success, nonzero on out-of-memory error. On
+ * error, the_list will be unchanged. "Success"
+ * does not indicate whether or not the header was
+ * already in the list.
*
*********************************************************************/
-void enlist_unique_header(struct list *header, const char *name, const char *value)
+int enlist_unique_header(struct list *the_list, const char *name, const char *value)
{
- struct list *last;
- struct list *cur = header->next;
int length;
- char *dummy;
+ int result;
+ char *str;
- if (name == NULL || value == NULL) return;
+ assert(the_list);
+ assert(list_is_valid(the_list));
+ assert(name);
+ assert(value);
- dummy = strdup(name);
- dummy = strsav(dummy, ": ");
- length = strlen(dummy);
-
- while (cur != NULL)
+ length = strlen(name) + 2;
+ if (NULL == (str = (char *)malloc(length + strlen(value) + 1)))
{
- if ((cur->str != NULL) &&
- (0 == strncmp(dummy, cur->str, length)))
- {
- /* Already there */
- return;
- }
- cur = cur->next;
+ return 1;
}
+ strcpy(str, name);
+ str[length - 2] = ':';
+ str[length - 1] = ' ';
+ strcpy(str + length, value);
- cur = (struct list *)malloc(sizeof(*cur));
+ result = enlist_unique(the_list, str, length);
- if (cur != NULL)
- {
- cur->str = strsav(dummy, value);
- cur->next = NULL;
+ free(str);
- last = header->last;
- if (last == NULL)
- {
- last = header;
- }
- last->next = cur;
- header->last = cur;
- }
+ assert(list_is_valid(the_list));
+
+ return result;
}
/*********************************************************************
*
- * Function : destroy_list
+ * Function : list_remove_all
*
- * Description : Destroy a string list (opposite of enlist)
+ * Description : Remove all entries from a list. On return, the_list
+ * is a valid, empty list. Note that this is similar
+ * to destroy_list(), but the difference is that this
+ * function guarantees that the list structure is still
+ * valid after the call.
*
* Parameters :
- * 1 : header = pointer to list 'dummy' header
+ * 1 : the_list = pointer to list
*
* Returns : N/A
*
*********************************************************************/
-void destroy_list(struct list *header)
+void list_remove_all(struct list *the_list)
{
- struct list *p, *n;
+ struct list_entry *cur_entry;
+ struct list_entry *next_entry;
- for (p = header->next; p ; p = n)
+ assert(the_list);
+ assert(list_is_valid(the_list));
+
+ for (cur_entry = the_list->first; cur_entry ; cur_entry = next_entry)
{
- n = p->next;
- freez(p->str);
- free(p);
+ next_entry = cur_entry->next;
+ freez((char *)cur_entry->str);
+ free(cur_entry);
}
- memset(header, '\0', sizeof(*header));
+ the_list->first = the_list->last = NULL;
+ assert(list_is_valid(the_list));
}
*
* Function : list_to_text
*
- * Description : "Flaten" a string list into 1 long \r\n delimited string,
- * adding an empty line at the end.
+ * Description : "Flatten" a string list into 1 long \r\n delimited string,
+ * adding an empty line at the end. NULL entries are ignored.
+ * This function does not change the_list.
*
* Parameters :
- * 1 : h = pointer to list 'dummy' header
+ * 1 : the_list = pointer to list
*
* Returns : NULL on malloc error, else new long string.
+ * Caller must free() it.
*
*********************************************************************/
-char *list_to_text(struct list *h)
+char *list_to_text(const struct list *the_list)
{
- struct list *p;
+ struct list_entry *cur_entry;
char *ret = NULL;
char *s;
int size = 2;
- for (p = h->next; p ; p = p->next)
+ assert(the_list);
+ assert(list_is_valid(the_list));
+
+ for (cur_entry = the_list->first; cur_entry ; cur_entry = cur_entry->next)
{
- if (p->str)
+ if (cur_entry->str)
{
- size += strlen(p->str) + 2;
+ size += strlen(cur_entry->str) + 2;
}
}
s = ret;
- for (p = h->next; p ; p = p->next)
+ for (cur_entry = the_list->first; cur_entry ; cur_entry = cur_entry->next)
{
- if (p->str)
+ if (cur_entry->str)
{
- strcpy(s, p->str);
+ strcpy(s, cur_entry->str);
s += strlen(s);
*s++ = '\r'; *s++ = '\n';
}
*s++ = '\r'; *s++ = '\n';
return(ret);
-
}
* Description : Remove a string from a specified string list.
*
* Parameters :
- * 1 : header = pointer to list 'dummy' header
- * 2 : str = string to remove from the list
+ * 1 : the_list = pointer to list
+ * 2 : str = string to remove from the list - non-NULL
*
* Returns : Number of times it was removed.
*
*********************************************************************/
-int list_remove_item(struct list *header, const char *str)
+int list_remove_item(struct list *the_list, const char *str)
{
- struct list *prev = header;
- struct list *cur = prev->next;
+ struct list_entry *prev = NULL;
+ struct list_entry *cur;
+ struct list_entry *next;
int count = 0;
+ assert(the_list);
+ assert(list_is_valid(the_list));
+ assert(str);
+
+ cur = the_list->first;
+
while (cur != NULL)
{
+ next = cur->next;
+
if ((cur->str != NULL) && (0 == strcmp(str, cur->str)))
{
count++;
- prev->next = cur->next;
- free(cur->str);
+ if (prev != NULL)
+ {
+ prev->next = next;
+ }
+ else
+ {
+ the_list->first = next;
+ }
+ free((char *)cur->str);
free(cur);
}
else
{
prev = cur;
}
- cur = prev->next;
+ cur = next;
}
- header->last = prev;
+ the_list->last = prev;
+
+ assert(list_is_valid(the_list));
return count;
}
*********************************************************************/
int list_remove_list(struct list *dest, const struct list *src)
{
- struct list *cur = src->next;
+ struct list_entry *cur;
int count = 0;
- while (cur != NULL)
+ assert(src);
+ assert(dest);
+ assert(list_is_valid(src));
+ assert(list_is_valid(dest));
+
+ for (cur = src->first; cur != NULL; cur = cur->next)
{
if (cur->str != NULL)
{
count += list_remove_item(dest, cur->str);
}
- cur = cur->next;
}
+ assert(list_is_valid(src));
+ assert(list_is_valid(dest));
+
return count;
}
*
* Function : list_duplicate
*
- * Description : Duplicate a string list
+ * Description : Copy a string list
*
* Parameters :
- * 1 : dest = pointer to destination for copy. Caller allocs.
- * 2 : src = pointer to source for copy.
+ * 1 : dest = Destination list. Must be a valid list.
+ * All existing entries will be removed.
+ * 1 : src = pointer to source list for copy.
*
- * Returns : N/A
+ * Returns : 0 on success, nonzero on error. On error, dest
+ * will be empty.
*
*********************************************************************/
-void list_duplicate(struct list *dest, const struct list *src)
+int list_duplicate(struct list *dest, const struct list *src)
{
- struct list * cur_src = src->next;
- struct list * cur_dest = dest;
+ struct list_entry * cur_src;
+ struct list_entry * cur_dest;
+
+ assert(src);
+ assert(dest);
+ assert(list_is_valid(src));
+ assert(list_is_valid(dest));
- memset(dest, '\0', sizeof(*dest));
+ list_remove_all(dest);
- while (cur_src)
+ /* Need to process first entry specially so we can set dest->first */
+ cur_src = src->first;
+ if (cur_src)
{
- cur_dest = cur_dest->next = (struct list *)zalloc(sizeof(*cur_dest));
+ cur_dest = dest->first = (struct list_entry *)zalloc(sizeof(*cur_dest));
if (cur_dest == NULL)
{
- return;
+ destroy_list(dest);
+
+ assert(list_is_valid(src));
+ assert(list_is_valid(dest));
+
+ return 1;
+ }
+
+ if (cur_src->str)
+ {
+ cur_dest->str = strdup(cur_src->str);
+ if (cur_dest->str == NULL)
+ {
+ destroy_list(dest);
+
+ assert(list_is_valid(src));
+ assert(list_is_valid(dest));
+
+ return 1;
+ }
}
- cur_dest->str = strdup(cur_src->str);
- cur_src = cur_src->next;
+ /* else { cur_dest->str = NULL; } - implied by zalloc */
+
+ /* Now process the rest */
+ for (cur_src = cur_src->next; cur_src; cur_src = cur_src->next)
+ {
+ cur_dest = cur_dest->next = (struct list_entry *)zalloc(sizeof(*cur_dest));
+ if (cur_dest == NULL)
+ {
+ destroy_list(dest);
+
+ assert(list_is_valid(src));
+ assert(list_is_valid(dest));
+
+ return 1;
+ }
+ if (cur_src->str)
+ {
+ cur_dest->str = strdup(cur_src->str);
+ if (cur_dest->str == NULL)
+ {
+ destroy_list(dest);
+
+ assert(list_is_valid(src));
+ assert(list_is_valid(dest));
+
+ return 1;
+ }
+ }
+ /* else { cur_dest->str = NULL; } - implied by zalloc */
+ }
+
+ dest->last = cur_dest;
}
- dest->last = cur_dest;
+ assert(list_is_valid(src));
+ assert(list_is_valid(dest));
+ return 0;
}
* Duplicate items are not added.
*
* Parameters :
- * 1 : dest = pointer to destination for merge. Caller allocs.
+ * 1 : dest = pointer to destination list for merge.
* 2 : src = pointer to source for merge.
*
- * Returns : N/A
+ * Returns : 0 on success, nonzero on out-of-memory error.
+ * On error, some (but not all) of src might have
+ * been copied into dest.
*
*********************************************************************/
-void list_append_list_unique(struct list *dest, const struct list *src)
+int list_append_list_unique(struct list *dest, const struct list *src)
{
- struct list * cur = src->next;
-
- while (cur)
- {
- enlist_unique(dest, cur->str, 0);
- cur = cur->next;
- }
-}
+ struct list_entry * cur;
+ assert(src);
+ assert(dest);
+ assert(list_is_valid(src));
+ assert(list_is_valid(dest));
-/*********************************************************************
- *
- * Function : map
- *
- * Description : Add a mapping from given name to given value to a
- * given map.
- *
- * Note: Since all strings will be free()d in free_map()
- * later, use the copy flags for constants or
- * strings that will be independantly free()d.
- *
- * Parameters :
- * 1 : the_map = map to add to
- * 2 : name = name to add
- * 3 : nc = flag set if a copy of name should be used
- * 4 : value = value to add
- * 5 : vc = flag set if a copy of value should be used
- *
- * Returns : N/A
- *
- *********************************************************************/
-void map(struct map *the_map, const char *name, int nc, const char *value, int vc)
-{
- struct map_entry *new_entry;
-
- if (NULL == (new_entry = zalloc(sizeof(*new_entry))))
+ for (cur = src->first; cur; cur = cur->next)
{
- return;
- }
-
- new_entry->name = nc ? strdup(name) : name;
- new_entry->value = vc ? strdup(value) : value;
- /* new_entry->next = NULL; - implied by zalloc */
+ if (cur->str)
+ {
+ if (enlist_unique(dest, cur->str, 0))
+ {
+ assert(list_is_valid(src));
+ assert(list_is_valid(dest));
- if (the_map->last)
- {
- the_map->last = the_map->last->next = new_entry;
- }
- else
- {
- the_map->last = the_map->first = new_entry;
+ return 1;
+ }
+ }
}
+ assert(list_is_valid(src));
+ assert(list_is_valid(dest));
+
+ return 0;
}
/*********************************************************************
*
- * Function : lookup
+ * Function : list_is_empty
*
- * Description : Look up an item with a given name in a map, and
- * return its value
+ * Description : Test whether a list is empty. Does not change the list.
*
* Parameters :
- * 1 : name = name parameter to look for
+ * 1 : the_list = pointer to list to test.
*
- * Returns : the value if found, else the empty string
+ * Returns : Nonzero iff the list contains no entries.
*
*********************************************************************/
-const char *lookup(const struct map *the_map, const char *name)
+int list_is_empty(const struct list *the_list)
{
- const struct map_entry *cur_entry = the_map->first;
-
- while (cur_entry)
- {
- if (!strcmp(name, cur_entry->name))
- {
- return cur_entry->value;
- }
- cur_entry = cur_entry->next;
- }
- return "";
+ assert(the_list);
+ assert(list_is_valid(the_list));
+
+ return (the_list->first == NULL);
}
/*********************************************************************
*
- * Function : new_nap
+ * Function : new_map
*
* Description : Create a new, empty map.
*
- * Parameters :
+ * Parameters : N/A
*
* Returns : A new, empty map, or NULL if out of memory.
*
* depandant strings
*
* Parameters :
- * 1 : cur_entry = map to be freed. May be NULL.
+ * 1 : the_map = map to be freed. May be NULL.
*
* Returns : N/A
*
}
+/*********************************************************************
+ *
+ * Function : map
+ *
+ * Description : Add a mapping from given name to given value to a
+ * given map.
+ *
+ * Note: Since all strings will be free()d in free_map()
+ * later, set the copy flags for constants or
+ * strings that will be independantly free()d.
+ *
+ * Parameters :
+ * 1 : the_map = map to add to
+ * 2 : name = name to add
+ * 3 : name_needs_copying = flag set if a copy of name should be used
+ * 4 : value = value to add
+ * 5 : value_needs_copying = flag set if a copy of value should be used
+ *
+ * Returns : 0 on success, nonzero on out-of-memory error.
+ *
+ *********************************************************************/
+int map(struct map *the_map,
+ const char *name, int name_needs_copying,
+ const char *value, int value_needs_copying)
+{
+ struct map_entry *new_entry;
+
+ assert(the_map);
+ assert(name);
+ assert(value);
+
+ if (NULL == (new_entry = zalloc(sizeof(*new_entry))))
+ {
+ return 1;
+ }
+
+ if (name_needs_copying)
+ {
+ if (NULL == (name = strdup(name)))
+ {
+ free(new_entry);
+ return 1;
+ }
+ }
+
+ if (value_needs_copying)
+ {
+ if (NULL == (value = strdup(value)))
+ {
+ if (name_needs_copying)
+ {
+ free((char *)name);
+ }
+ free(new_entry);
+ return 1;
+ }
+ }
+
+ new_entry->name = name;
+ new_entry->value = value;
+ /* new_entry->next = NULL; - implied by zalloc */
+
+ if (the_map->last)
+ {
+ the_map->last->next = new_entry;
+ the_map->last = new_entry;
+ }
+ else
+ {
+ the_map->first = new_entry;
+ the_map->last = new_entry;
+ }
+
+ return 0;
+}
+
+
+/*********************************************************************
+ *
+ * Function : lookup
+ *
+ * Description : Look up an item with a given name in a map, and
+ * return its value
+ *
+ * Parameters :
+ * 1 : the_map = map to look in
+ * 2 : name = name parameter to look for
+ *
+ * Returns : the value if found, else the empty string.
+ * Return value is alloced as part of the map, so
+ * it is freed when the map is destroyed. Caller
+ * must not free or modify it.
+ *
+ *********************************************************************/
+const char *lookup(const struct map *the_map, const char *name)
+{
+ const struct map_entry *cur_entry;
+
+ assert(the_map);
+ assert(name);
+
+ for (cur_entry = the_map->first; cur_entry != NULL; cur_entry = cur_entry->next)
+ {
+ if (!strcmp(name, cur_entry->name))
+ {
+ return cur_entry->value;
+ }
+ }
+ return "";
+}
+
+
/*
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