/*
* "$Id$"
*
* Node support code for Mini-XML, a small XML-like file parsing library.
*
* Copyright 2003-2005 by Michael Sweet.
*
* This program is free software; you can redistribute it and/or
* modify it under the terms of the GNU Library General Public
* License as published by the Free Software Foundation; either
* version 2, or (at your option) any later version.
*
* This program 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.
*
* Contents:
*
* mxmlAdd() - Add a node to a tree.
* mxmlDelete() - Delete a node and all of its children.
* mxmlNewElement() - Create a new element node.
* mxmlNewInteger() - Create a new integer node.
* mxmlNewOpaque() - Create a new opaque string.
* mxmlNewReal() - Create a new real number node.
* mxmlNewText() - Create a new text fragment node.
* mxmlNewTextf() - Create a new formatted text fragment node.
* mxmlRemove() - Remove a node from its parent.
* mxml_new() - Create a new node.
*/
/*
* Include necessary headers...
*/
#include "config.h"
#include "mxml.h"
/*
* Local functions...
*/
static mxml_node_t *mxml_new(mxml_node_t *parent, mxml_type_t type);
/*
* 'mxmlAdd()' - Add a node to a tree.
*
* Adds the specified node to the parent. If the child argument is not
* NULL, puts the new node before or after the specified child depending
* on the value of the where argument. If the child argument is NULL,
* puts the new node at the beginning of the child list (MXML_ADD_BEFORE)
* or at the end of the child list (MXML_ADD_AFTER). The constant
* MXML_ADD_TO_PARENT can be used to specify a NULL child pointer.
*/
void
mxmlAdd(mxml_node_t *parent, /* I - Parent node */
int where, /* I - Where to add, MXML_ADD_BEFORE or MXML_ADD_AFTER */
mxml_node_t *child, /* I - Child node for where or MXML_ADD_TO_PARENT */
mxml_node_t *node) /* I - Node to add */
{
#ifdef DEBUG
fprintf(stderr, "mxmlAdd(parent=%p, where=%d, child=%p, node=%p)\n", parent,
where, child, node);
#endif /* DEBUG */
/*
* Range check input...
*/
if (!parent || !node)
return;
#if DEBUG > 1
fprintf(stderr, " BEFORE: node->parent=%p\n", node->parent);
if (parent)
{
fprintf(stderr, " BEFORE: parent->child=%p\n", parent->child);
fprintf(stderr, " BEFORE: parent->last_child=%p\n", parent->last_child);
fprintf(stderr, " BEFORE: parent->prev=%p\n", parent->prev);
fprintf(stderr, " BEFORE: parent->next=%p\n", parent->next);
}
#endif /* DEBUG > 1 */
/*
* Remove the node from any existing parent...
*/
if (node->parent)
mxmlRemove(node);
/*
* Reset pointers...
*/
node->parent = parent;
switch (where)
{
case MXML_ADD_BEFORE :
if (!child || child == parent->child || child->parent != parent)
{
/*
* Insert as first node under parent...
*/
node->next = parent->child;
if (parent->child)
parent->child->prev = node;
else
parent->last_child = node;
parent->child = node;
}
else
{
/*
* Insert node before this child...
*/
node->next = child;
node->prev = child->prev;
if (child->prev)
child->prev->next = node;
else
parent->child = node;
child->prev = node;
}
break;
case MXML_ADD_AFTER :
if (!child || child == parent->last_child || child->parent != parent)
{
/*
* Insert as last node under parent...
*/
node->parent = parent;
node->prev = parent->last_child;
if (parent->last_child)
parent->last_child->next = node;
else
parent->child = node;
parent->last_child = node;
}
else
{
/*
* Insert node after this child...
*/
node->prev = child;
node->next = child->next;
if (child->next)
child->next->prev = node;
else
parent->last_child = node;
child->next = node;
}
break;
}
#if DEBUG > 1
fprintf(stderr, " AFTER: node->parent=%p\n", node->parent);
if (parent)
{
fprintf(stderr, " AFTER: parent->child=%p\n", parent->child);
fprintf(stderr, " AFTER: parent->last_child=%p\n", parent->last_child);
fprintf(stderr, " AFTER: parent->prev=%p\n", parent->prev);
fprintf(stderr, " AFTER: parent->next=%p\n", parent->next);
}
#endif /* DEBUG > 1 */
}
/*
* 'mxmlDelete()' - Delete a node and all of its children.
*
* If the specified node has a parent, this function first removes the
* node from its parent using the mxmlRemove() function.
*/
void
mxmlDelete(mxml_node_t *node) /* I - Node to delete */
{
int i; /* Looping var */
#ifdef DEBUG
fprintf(stderr, "mxmlDelete(node=%p)\n", node);
#endif /* DEBUG */
/*
* Range check input...
*/
if (!node)
return;
/*
* Remove the node from its parent, if any...
*/
mxmlRemove(node);
/*
* Delete children...
*/
while (node->child)
mxmlDelete(node->child);
/*
* Now delete any node data...
*/
switch (node->type)
{
case MXML_ELEMENT :
if (node->value.element.name)
free(node->value.element.name);
if (node->value.element.num_attrs)
{
for (i = 0; i < node->value.element.num_attrs; i ++)
{
if (node->value.element.attrs[i].name)
free(node->value.element.attrs[i].name);
if (node->value.element.attrs[i].value)
free(node->value.element.attrs[i].value);
}
free(node->value.element.attrs);
}
break;
case MXML_INTEGER :
/* Nothing to do */
break;
case MXML_OPAQUE :
if (node->value.opaque)
free(node->value.opaque);
break;
case MXML_REAL :
/* Nothing to do */
break;
case MXML_TEXT :
if (node->value.text.string)
free(node->value.text.string);
break;
case MXML_CUSTOM :
if (node->value.custom.data &&
node->value.custom.destroy)
(*(node->value.custom.destroy))(node->value.custom.data);
break;
}
/*
* Free this node...
*/
free(node);
}
/*
* 'mxmlNewCustom()' - Create a new custom data node.
*
* The new custom node is added to the end of the specified parent's child
* list. The constant MXML_NO_PARENT can be used to specify that the new
* element node has no parent. NULL can be passed when the data in the
* node is not dynamically allocated or is separately managed.
*/
mxml_node_t * /* O - New node */
mxmlNewCustom(mxml_node_t *parent, /* I - Parent node or MXML_NO_PARENT */
void *data, /* I - Pointer to data */
void (*destroy)(void *))
/* I - Function to destroy data */
{
mxml_node_t *node; /* New node */
#ifdef DEBUG
fprintf(stderr, "mxmlNewCustom(parent=%p, data=%p, destroy=%p)\n", parent,
data, destroy);
#endif /* DEBUG */
/*
* Create the node and set the value...
*/
if ((node = mxml_new(parent, MXML_CUSTOM)) != NULL)
{
node->value.custom.data = data;
node->value.custom.destroy = destroy;
}
return (node);
}
/*
* 'mxmlNewElement()' - Create a new element node.
*
* The new element node is added to the end of the specified parent's child
* list. The constant MXML_NO_PARENT can be used to specify that the new
* element node has no parent.
*/
mxml_node_t * /* O - New node */
mxmlNewElement(mxml_node_t *parent, /* I - Parent node or MXML_NO_PARENT */
const char *name) /* I - Name of element */
{
mxml_node_t *node; /* New node */
#ifdef DEBUG
fprintf(stderr, "mxmlNewElement(parent=%p, name=\"%s\")\n", parent,
name ? name : "(null)");
#endif /* DEBUG */
/*
* Range check input...
*/
if (!name)
return (NULL);
/*
* Create the node and set the element name...
*/
if ((node = mxml_new(parent, MXML_ELEMENT)) != NULL)
node->value.element.name = strdup(name);
return (node);
}
/*
* 'mxmlNewInteger()' - Create a new integer node.
*
* The new integer node is added to the end of the specified parent's child
* list. The constant MXML_NO_PARENT can be used to specify that the new
* integer node has no parent.
*/
mxml_node_t * /* O - New node */
mxmlNewInteger(mxml_node_t *parent, /* I - Parent node or MXML_NO_PARENT */
int integer) /* I - Integer value */
{
mxml_node_t *node; /* New node */
#ifdef DEBUG
fprintf(stderr, "mxmlNewInteger(parent=%p, integer=%d)\n", parent, integer);
#endif /* DEBUG */
/*
* Create the node and set the element name...
*/
if ((node = mxml_new(parent, MXML_INTEGER)) != NULL)
node->value.integer = integer;
return (node);
}
/*
* 'mxmlNewOpaque()' - Create a new opaque string.
*
* The new opaque node is added to the end of the specified parent's child
* list. The constant MXML_NO_PARENT can be used to specify that the new
* opaque node has no parent. The opaque string must be nul-terminated and
* is copied into the new node.
*/
mxml_node_t * /* O - New node */
mxmlNewOpaque(mxml_node_t *parent, /* I - Parent node or MXML_NO_PARENT */
const char *opaque) /* I - Opaque string */
{
mxml_node_t *node; /* New node */
#ifdef DEBUG
fprintf(stderr, "mxmlNewOpaque(parent=%p, opaque=\"%s\")\n", parent,
opaque ? opaque : "(null)");
#endif /* DEBUG */
/*
* Range check input...
*/
if (!opaque)
return (NULL);
/*
* Create the node and set the element name...
*/
if ((node = mxml_new(parent, MXML_OPAQUE)) != NULL)
node->value.opaque = strdup(opaque);
return (node);
}
/*
* 'mxmlNewReal()' - Create a new real number node.
*
* The new real number node is added to the end of the specified parent's
* child list. The constant MXML_NO_PARENT can be used to specify that
* the new real number node has no parent.
*/
mxml_node_t * /* O - New node */
mxmlNewReal(mxml_node_t *parent, /* I - Parent node or MXML_NO_PARENT */
double real) /* I - Real number value */
{
mxml_node_t *node; /* New node */
#ifdef DEBUG
fprintf(stderr, "mxmlNewReal(parent=%p, real=%g)\n", parent, real);
#endif /* DEBUG */
/*
* Create the node and set the element name...
*/
if ((node = mxml_new(parent, MXML_REAL)) != NULL)
node->value.real = real;
return (node);
}
/*
* 'mxmlNewText()' - Create a new text fragment node.
*
* The new text node is added to the end of the specified parent's child
* list. The constant MXML_NO_PARENT can be used to specify that the new
* text node has no parent. The whitespace parameter is used to specify
* whether leading whitespace is present before the node. The text
* string must be nul-terminated and is copied into the new node.
*/
mxml_node_t * /* O - New node */
mxmlNewText(mxml_node_t *parent, /* I - Parent node or MXML_NO_PARENT */
int whitespace, /* I - 1 = leading whitespace, 0 = no whitespace */
const char *string) /* I - String */
{
mxml_node_t *node; /* New node */
#ifdef DEBUG
fprintf(stderr, "mxmlNewText(parent=%p, whitespace=%d, string=\"%s\")\n",
parent, whitespace, string ? string : "(null)");
#endif /* DEBUG */
/*
* Range check input...
*/
if (!string)
return (NULL);
/*
* Create the node and set the text value...
*/
if ((node = mxml_new(parent, MXML_TEXT)) != NULL)
{
node->value.text.whitespace = whitespace;
node->value.text.string = strdup(string);
}
return (node);
}
/*
* 'mxmlNewTextf()' - Create a new formatted text fragment node.
*
* The new text node is added to the end of the specified parent's child
* list. The constant MXML_NO_PARENT can be used to specify that the new
* text node has no parent. The whitespace parameter is used to specify
* whether leading whitespace is present before the node. The format
* string must be nul-terminated and is formatted into the new node.
*/
mxml_node_t * /* O - New node */
mxmlNewTextf(mxml_node_t *parent, /* I - Parent node or MXML_NO_PARENT */
int whitespace, /* I - 1 = leading whitespace, 0 = no whitespace */
const char *format, /* I - Printf-style frmat string */
...) /* I - Additional args as needed */
{
mxml_node_t *node; /* New node */
va_list ap; /* Pointer to arguments */
#ifdef DEBUG
fprintf(stderr, "mxmlNewTextf(parent=%p, whitespace=%d, format=\"%s\", ...)\n",
parent, whitespace, format ? format : "(null)");
#endif /* DEBUG */
/*
* Range check input...
*/
if (!format)
return (NULL);
/*
* Create the node and set the text value...
*/
if ((node = mxml_new(parent, MXML_TEXT)) != NULL)
{
va_start(ap, format);
node->value.text.whitespace = whitespace;
node->value.text.string = mxml_strdupf(format, ap);
va_end(ap);
}
return (node);
}
/*
* 'mxmlRemove()' - Remove a node from its parent.
*
* Does not free memory used by the node - use mxmlDelete() for that.
* This function does nothing if the node has no parent.
*/
void
mxmlRemove(mxml_node_t *node) /* I - Node to remove */
{
#ifdef DEBUG
fprintf(stderr, "mxmlRemove(node=%p)\n", node);
#endif /* DEBUG */
/*
* Range check input...
*/
if (!node || !node->parent)
return;
/*
* Remove from parent...
*/
#if DEBUG > 1
fprintf(stderr, " BEFORE: node->parent=%p\n", node->parent);
if (node->parent)
{
fprintf(stderr, " BEFORE: node->parent->child=%p\n", node->parent->child);
fprintf(stderr, " BEFORE: node->parent->last_child=%p\n", node->parent->last_child);
}
fprintf(stderr, " BEFORE: node->child=%p\n", node->child);
fprintf(stderr, " BEFORE: node->last_child=%p\n", node->last_child);
fprintf(stderr, " BEFORE: node->prev=%p\n", node->prev);
fprintf(stderr, " BEFORE: node->next=%p\n", node->next);
#endif /* DEBUG > 1 */
if (node->prev)
node->prev->next = node->next;
else
node->parent->child = node->next;
if (node->next)
node->next->prev = node->prev;
else
node->parent->last_child = node->prev;
node->parent = NULL;
node->prev = NULL;
node->next = NULL;
#if DEBUG > 1
fprintf(stderr, " AFTER: node->parent=%p\n", node->parent);
if (node->parent)
{
fprintf(stderr, " AFTER: node->parent->child=%p\n", node->parent->child);
fprintf(stderr, " AFTER: node->parent->last_child=%p\n", node->parent->last_child);
}
fprintf(stderr, " AFTER: node->child=%p\n", node->child);
fprintf(stderr, " AFTER: node->last_child=%p\n", node->last_child);
fprintf(stderr, " AFTER: node->prev=%p\n", node->prev);
fprintf(stderr, " AFTER: node->next=%p\n", node->next);
#endif /* DEBUG > 1 */
}
/*
* 'mxml_new()' - Create a new node.
*/
static mxml_node_t * /* O - New node */
mxml_new(mxml_node_t *parent, /* I - Parent node */
mxml_type_t type) /* I - Node type */
{
mxml_node_t *node; /* New node */
#if DEBUG > 1
fprintf(stderr, "mxml_new(parent=%p, type=%d)\n", parent, type);
#endif /* DEBUG > 1 */
/*
* Allocate memory for the node...
*/
if ((node = calloc(1, sizeof(mxml_node_t))) == NULL)
{
#if DEBUG > 1
fputs(" returning NULL\n", stderr);
#endif /* DEBUG > 1 */
return (NULL);
}
#if DEBUG > 1
fprintf(stderr, " returning %p\n", node);
#endif /* DEBUG > 1 */
/*
* Set the node type...
*/
node->type = type;
/*
* Add to the parent if present...
*/
if (parent)
mxmlAdd(parent, MXML_ADD_AFTER, MXML_ADD_TO_PARENT, node);
/*
* Return the new node...
*/
return (node);
}
/*
* End of "$Id$".
*/