mxml/mxml-search.c
Michael Sweet bcfa6ef518 Update/fix documentation.
Add mxmlNewOpaquef and mxmlSetOpaquef functions.

Fix discussion writing code to look for opaque strings.

Fix dependencies for documentation generation.
2017-04-24 10:42:03 -04:00

273 lines
6.6 KiB
C

/*
* Search/navigation functions for Mini-XML, a small XML file parsing library.
*
* Copyright 2003-2017 by Michael R Sweet.
*
* These coded instructions, statements, and computer programs are the
* property of Michael R Sweet and are protected by Federal copyright
* law. Distribution and use rights are outlined in the file "COPYING"
* which should have been included with this file. If this file is
* missing or damaged, see the license at:
*
* https://michaelrsweet.github.io/mxml
*/
/*
* Include necessary headers...
*/
#include "config.h"
#include "mxml.h"
/*
* 'mxmlFindElement()' - Find the named element.
*
* The search is constrained by the name, attribute name, and value; any
* @code NULL@ names or values are treated as wildcards, so different kinds of
* searches can be implemented by looking for all elements of a given name
* or all elements with a specific attribute. The descend argument determines
* whether the search descends into child nodes; normally you will use
* @code MXML_DESCEND_FIRST@ for the initial search and @code MXML_NO_DESCEND@
* to find additional direct descendents of the node. The top node argument
* constrains the search to a particular node's children.
*/
mxml_node_t * /* O - Element node or @code NULL@ */
mxmlFindElement(mxml_node_t *node, /* I - Current node */
mxml_node_t *top, /* I - Top node */
const char *element, /* I - Element name or @code NULL@ for any */
const char *attr, /* I - Attribute name, or @code NULL@ for none */
const char *value, /* I - Attribute value, or @code NULL@ for any */
int descend) /* I - Descend into tree - @code MXML_DESCEND@, @code MXML_NO_DESCEND@, or @code MXML_DESCEND_FIRST@ */
{
const char *temp; /* Current attribute value */
/*
* Range check input...
*/
if (!node || !top || (!attr && value))
return (NULL);
/*
* Start with the next node...
*/
node = mxmlWalkNext(node, top, descend);
/*
* Loop until we find a matching element...
*/
while (node != NULL)
{
/*
* See if this node matches...
*/
if (node->type == MXML_ELEMENT &&
node->value.element.name &&
(!element || !strcmp(node->value.element.name, element)))
{
/*
* See if we need to check for an attribute...
*/
if (!attr)
return (node); /* No attribute search, return it... */
/*
* Check for the attribute...
*/
if ((temp = mxmlElementGetAttr(node, attr)) != NULL)
{
/*
* OK, we have the attribute, does it match?
*/
if (!value || !strcmp(value, temp))
return (node); /* Yes, return it... */
}
}
/*
* No match, move on to the next node...
*/
if (descend == MXML_DESCEND)
node = mxmlWalkNext(node, top, MXML_DESCEND);
else
node = node->next;
}
return (NULL);
}
/*
* 'mxmlFindPath()' - Find a node with the given path.
*
* The "path" is a slash-separated list of element names. The name "*" is
* considered a wildcard for one or more levels of elements. For example,
* "foo/one/two", "bar/two/one", "*\/one", and so forth.
*
* The first child node of the found node is returned if the given node has
* children and the first child is a value node.
*
* @since Mini-XML 2.7@
*/
mxml_node_t * /* O - Found node or @code NULL@ */
mxmlFindPath(mxml_node_t *top, /* I - Top node */
const char *path) /* I - Path to element */
{
mxml_node_t *node; /* Current node */
char element[256]; /* Current element name */
const char *pathsep; /* Separator in path */
int descend; /* mxmlFindElement option */
/*
* Range check input...
*/
if (!top || !path || !*path)
return (NULL);
/*
* Search each element in the path...
*/
node = top;
while (*path)
{
/*
* Handle wildcards...
*/
if (!strncmp(path, "*/", 2))
{
path += 2;
descend = MXML_DESCEND;
}
else
descend = MXML_DESCEND_FIRST;
/*
* Get the next element in the path...
*/
if ((pathsep = strchr(path, '/')) == NULL)
pathsep = path + strlen(path);
if (pathsep == path || (pathsep - path) >= sizeof(element))
return (NULL);
memcpy(element, path, pathsep - path);
element[pathsep - path] = '\0';
if (*pathsep)
path = pathsep + 1;
else
path = pathsep;
/*
* Search for the element...
*/
if ((node = mxmlFindElement(node, node, element, NULL, NULL,
descend)) == NULL)
return (NULL);
}
/*
* If we get this far, return the node or its first child...
*/
if (node->child && node->child->type != MXML_ELEMENT)
return (node->child);
else
return (node);
}
/*
* 'mxmlWalkNext()' - Walk to the next logical node in the tree.
*
* The descend argument controls whether the first child is considered
* to be the next node. The top node argument constrains the walk to
* the node's children.
*/
mxml_node_t * /* O - Next node or @code NULL@ */
mxmlWalkNext(mxml_node_t *node, /* I - Current node */
mxml_node_t *top, /* I - Top node */
int descend) /* I - Descend into tree - @code MXML_DESCEND@, @code MXML_NO_DESCEND@, or @code MXML_DESCEND_FIRST@ */
{
if (!node)
return (NULL);
else if (node->child && descend)
return (node->child);
else if (node == top)
return (NULL);
else if (node->next)
return (node->next);
else if (node->parent && node->parent != top)
{
node = node->parent;
while (!node->next)
if (node->parent == top || !node->parent)
return (NULL);
else
node = node->parent;
return (node->next);
}
else
return (NULL);
}
/*
* 'mxmlWalkPrev()' - Walk to the previous logical node in the tree.
*
* The descend argument controls whether the previous node's last child
* is considered to be the previous node. The top node argument constrains
* the walk to the node's children.
*/
mxml_node_t * /* O - Previous node or @code NULL@ */
mxmlWalkPrev(mxml_node_t *node, /* I - Current node */
mxml_node_t *top, /* I - Top node */
int descend) /* I - Descend into tree - @code MXML_DESCEND@, @code MXML_NO_DESCEND@, or @code MXML_DESCEND_FIRST@ */
{
if (!node || node == top)
return (NULL);
else if (node->prev)
{
if (node->prev->last_child && descend)
{
/*
* Find the last child under the previous node...
*/
node = node->prev->last_child;
while (node->last_child)
node = node->last_child;
return (node);
}
else
return (node->prev);
}
else if (node->parent != top)
return (node->parent);
else
return (NULL);
}