tree.c 216 KB
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/*
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 * tree.c : implementation of access function for an XML tree.
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 *
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 * References:
 *   XHTML 1.0 W3C REC: http://www.w3.org/TR/2002/REC-xhtml1-20020801/
 *
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 * See Copyright for the status of this software.
 *
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 * daniel@veillard.com
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 *
 */

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#define IN_LIBXML
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#include "libxml.h"
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#include <string.h> /* for memset() only ! */

#ifdef HAVE_CTYPE_H
#include <ctype.h>
#endif
#ifdef HAVE_STDLIB_H
#include <stdlib.h>
#endif
#ifdef HAVE_ZLIB_H
#include <zlib.h>
#endif

#include <libxml/xmlmemory.h>
#include <libxml/tree.h>
#include <libxml/parser.h>
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#include <libxml/uri.h>
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#include <libxml/entities.h>
#include <libxml/valid.h>
#include <libxml/xmlerror.h>
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#include <libxml/parserInternals.h>
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#include <libxml/globals.h>
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#ifdef LIBXML_HTML_ENABLED
#include <libxml/HTMLtree.h>
#endif
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int __xmlRegisterCallbacks = 0;

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xmlNsPtr xmlNewReconciliedNs(xmlDocPtr doc, xmlNodePtr tree, xmlNsPtr ns);

/************************************************************************
 *									*
 * 		A few static variables and macros			*
 *									*
 ************************************************************************/
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/* #undef xmlStringText */
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const xmlChar xmlStringText[] = { 't', 'e', 'x', 't', 0 };
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/* #undef xmlStringTextNoenc */
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const xmlChar xmlStringTextNoenc[] =
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              { 't', 'e', 'x', 't', 'n', 'o', 'e', 'n', 'c', 0 };
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/* #undef xmlStringComment */
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const xmlChar xmlStringComment[] = { 'c', 'o', 'm', 'm', 'e', 'n', 't', 0 };

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static int xmlCompressMode = 0;
static int xmlCheckDTD = 1;

#define UPDATE_LAST_CHILD_AND_PARENT(n) if ((n) != NULL) {		\
    xmlNodePtr ulccur = (n)->children;					\
    if (ulccur == NULL) {						\
        (n)->last = NULL;						\
    } else {								\
        while (ulccur->next != NULL) {					\
	       	ulccur->parent = (n);					\
		ulccur = ulccur->next;					\
	}								\
	ulccur->parent = (n);						\
	(n)->last = ulccur;						\
}}

/* #define DEBUG_BUFFER */
/* #define DEBUG_TREE */

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/************************************************************************
 *									*
 *		Functions to move to entities.c once the 		*
 *		API freeze is smoothen and they can be made public.	*
 *									*
 ************************************************************************/
#include <libxml/hash.h>
 
/**
 * xmlGetEntityFromDtd:
 * @dtd:  A pointer to the DTD to search
 * @name:  The entity name
 *
 * Do an entity lookup in the DTD entity hash table and
 * return the corresponding entity, if found.
 * 
 * Returns A pointer to the entity structure or NULL if not found.
 */
static xmlEntityPtr
xmlGetEntityFromDtd(xmlDtdPtr dtd, const xmlChar *name) {
    xmlEntitiesTablePtr table;
    
    if((dtd != NULL) && (dtd->entities != NULL)) {
	table = (xmlEntitiesTablePtr) dtd->entities;
	return((xmlEntityPtr) xmlHashLookup(table, name));
    	/* return(xmlGetEntityFromTable(table, name)); */
    }
    return(NULL);
}
/**
 * xmlGetParameterEntityFromDtd:
 * @dtd:  A pointer to the DTD to search
 * @name:  The entity name
 * 
 * Do an entity lookup in the DTD pararmeter entity hash table and
 * return the corresponding entity, if found.
 *
 * Returns A pointer to the entity structure or NULL if not found.
 */
static xmlEntityPtr
xmlGetParameterEntityFromDtd(xmlDtdPtr dtd, const xmlChar *name) {
    xmlEntitiesTablePtr table;
    
    if ((dtd != NULL) && (dtd->pentities != NULL)) {
	table = (xmlEntitiesTablePtr) dtd->pentities;
	return((xmlEntityPtr) xmlHashLookup(table, name));
	/* return(xmlGetEntityFromTable(table, name)); */
    }
    return(NULL);
}

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/************************************************************************
 *									*
 *			QName handling helper				*
 *									*
 ************************************************************************/

/**
 * xmlBuildQName:
 * @ncname:  the Name
 * @prefix:  the prefix
 * @memory:  preallocated memory
 * @len:  preallocated memory length
 *
 * Builds the QName @prefix:@ncname in @memory if there is enough space
 * and prefix is not NULL nor empty, otherwise allocate a new string.
 * If prefix is NULL or empty it returns ncname.
 *
 * Returns the new string which must be freed by the caller if different from
 *         @memory and @ncname or NULL in case of error
 */
xmlChar *
xmlBuildQName(const xmlChar *ncname, const xmlChar *prefix,
	      xmlChar *memory, int len) {
    int lenn, lenp;
    xmlChar *ret;

    if ((ncname == NULL) || (*ncname == 0)) return(NULL);
    if ((prefix == NULL) || (*prefix == 0)) return((xmlChar *) ncname);

    lenn = strlen((char *) ncname);
    lenp = strlen((char *) prefix);

    if ((memory == NULL) || (len < lenn + lenp + 2)) {
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	ret = (xmlChar *) xmlMallocAtomic(lenn + lenp + 2);
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	if (ret == NULL) return(NULL);
    } else {
	ret = memory;
    }
    memcpy(&ret[0], prefix, lenp);
    ret[lenp] = ':';
    memcpy(&ret[lenp + 1], ncname, lenn);
    ret[lenn + lenp + 1] = 0;
    return(ret);
}

/**
 * xmlSplitQName2:
 * @name:  the full QName
 * @prefix:  a xmlChar ** 
 *
 * parse an XML qualified name string
 *
 * [NS 5] QName ::= (Prefix ':')? LocalPart
 *
 * [NS 6] Prefix ::= NCName
 *
 * [NS 7] LocalPart ::= NCName
 *
 * Returns NULL if not a QName, otherwise the local part, and prefix
 *   is updated to get the Prefix if any.
 */

xmlChar *
xmlSplitQName2(const xmlChar *name, xmlChar **prefix) {
    int len = 0;
    xmlChar *ret = NULL;

    *prefix = NULL;
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    if (name == NULL) return(NULL);
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#ifndef XML_XML_NAMESPACE
    /* xml: prefix is not really a namespace */
    if ((name[0] == 'x') && (name[1] == 'm') &&
        (name[2] == 'l') && (name[3] == ':'))
	return(NULL);
#endif

    /* nasty but valid */
    if (name[0] == ':')
	return(NULL);

    /*
     * we are not trying to validate but just to cut, and yes it will
     * work even if this is as set of UTF-8 encoded chars
     */
    while ((name[len] != 0) && (name[len] != ':')) 
	len++;
    
    if (name[len] == 0)
	return(NULL);

    *prefix = xmlStrndup(name, len);
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    if (*prefix == NULL) {
	xmlGenericError(xmlGenericErrorContext,
		"xmlSplitQName2 : out of memory!\n");
	return(NULL);
    }
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    ret = xmlStrdup(&name[len + 1]);
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    if (ret == NULL) {
	xmlGenericError(xmlGenericErrorContext,
		"xmlSplitQName2 : out of memory!\n");
	if (*prefix != NULL) {
	    xmlFree(*prefix);
	    *prefix = NULL;
	}
	return(NULL);
    }
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    return(ret);
}

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/************************************************************************
 *									*
 *		Check Name, NCName and QName strings			*
 *									*
 ************************************************************************/
 
#define CUR_SCHAR(s, l) xmlStringCurrentChar(NULL, s, &l)

/**
 * xmlValidateNCName:
 * @value: the value to check
 * @space: allow spaces in front and end of the string
 *
 * Check that a value conforms to the lexical space of NCName
 *
 * Returns 0 if this validates, a positive error code number otherwise
 *         and -1 in case of internal or API error.
 */
int
xmlValidateNCName(const xmlChar *value, int space) {
    const xmlChar *cur = value;
    int c,l;

    /*
     * First quick algorithm for ASCII range
     */
    if (space)
	while (IS_BLANK(*cur)) cur++;
    if (((*cur >= 'a') && (*cur <= 'z')) || ((*cur >= 'A') && (*cur <= 'Z')) ||
	(*cur == '_'))
	cur++;
    else
	goto try_complex;
    while (((*cur >= 'a') && (*cur <= 'z')) ||
	   ((*cur >= 'A') && (*cur <= 'Z')) ||
	   ((*cur >= '0') && (*cur <= '9')) ||
	   (*cur == '_') || (*cur == '-') || (*cur == '.'))
	cur++;
    if (space)
	while (IS_BLANK(*cur)) cur++;
    if (*cur == 0)
	return(0);

try_complex:
    /*
     * Second check for chars outside the ASCII range
     */
    cur = value;
    c = CUR_SCHAR(cur, l);
    if (space) {
	while (IS_BLANK(c)) {
	    cur += l;
	    c = CUR_SCHAR(cur, l);
	}
    }
    if ((!xmlIsLetter(c)) && (c != '_'))
	return(1);
    cur += l;
    c = CUR_SCHAR(cur, l);
    while (xmlIsLetter(c) || xmlIsDigit(c) || (c == '.') ||
	   (c == '-') || (c == '_') || xmlIsCombining(c) ||
	   xmlIsExtender(c)) {
	cur += l;
	c = CUR_SCHAR(cur, l);
    }
    if (space) {
	while (IS_BLANK(c)) {
	    cur += l;
	    c = CUR_SCHAR(cur, l);
	}
    }
    if (c != 0)
	return(1);

    return(0);
}

/**
 * xmlValidateQName:
 * @value: the value to check
 * @space: allow spaces in front and end of the string
 *
 * Check that a value conforms to the lexical space of QName
 *
 * Returns 0 if this validates, a positive error code number otherwise
 *         and -1 in case of internal or API error.
 */
int
xmlValidateQName(const xmlChar *value, int space) {
    const xmlChar *cur = value;
    int c,l;

    /*
     * First quick algorithm for ASCII range
     */
    if (space)
	while (IS_BLANK(*cur)) cur++;
    if (((*cur >= 'a') && (*cur <= 'z')) || ((*cur >= 'A') && (*cur <= 'Z')) ||
	(*cur == '_'))
	cur++;
    else
	goto try_complex;
    while (((*cur >= 'a') && (*cur <= 'z')) ||
	   ((*cur >= 'A') && (*cur <= 'Z')) ||
	   ((*cur >= '0') && (*cur <= '9')) ||
	   (*cur == '_') || (*cur == '-') || (*cur == '.'))
	cur++;
    if (*cur == ':') {
	cur++;
	if (((*cur >= 'a') && (*cur <= 'z')) ||
	    ((*cur >= 'A') && (*cur <= 'Z')) ||
	    (*cur == '_'))
	    cur++;
	else
	    goto try_complex;
	while (((*cur >= 'a') && (*cur <= 'z')) ||
	       ((*cur >= 'A') && (*cur <= 'Z')) ||
	       ((*cur >= '0') && (*cur <= '9')) ||
	       (*cur == '_') || (*cur == '-') || (*cur == '.'))
	    cur++;
    }
    if (space)
	while (IS_BLANK(*cur)) cur++;
    if (*cur == 0)
	return(0);

try_complex:
    /*
     * Second check for chars outside the ASCII range
     */
    cur = value;
    c = CUR_SCHAR(cur, l);
    if (space) {
	while (IS_BLANK(c)) {
	    cur += l;
	    c = CUR_SCHAR(cur, l);
	}
    }
    if ((!xmlIsLetter(c)) && (c != '_'))
	return(1);
    cur += l;
    c = CUR_SCHAR(cur, l);
    while (xmlIsLetter(c) || xmlIsDigit(c) || (c == '.') ||
	   (c == '-') || (c == '_') || xmlIsCombining(c) ||
	   xmlIsExtender(c)) {
	cur += l;
	c = CUR_SCHAR(cur, l);
    }
    if (c == ':') {
	cur += l;
	c = CUR_SCHAR(cur, l);
	if ((!xmlIsLetter(c)) && (c != '_'))
	    return(1);
	cur += l;
	c = CUR_SCHAR(cur, l);
	while (xmlIsLetter(c) || xmlIsDigit(c) || (c == '.') ||
	       (c == '-') || (c == '_') || xmlIsCombining(c) ||
	       xmlIsExtender(c)) {
	    cur += l;
	    c = CUR_SCHAR(cur, l);
	}
    }
    if (space) {
	while (IS_BLANK(c)) {
	    cur += l;
	    c = CUR_SCHAR(cur, l);
	}
    }
    if (c != 0)
	return(1);
    return(0);
}

/**
 * xmlValidateName:
 * @value: the value to check
 * @space: allow spaces in front and end of the string
 *
 * Check that a value conforms to the lexical space of Name
 *
 * Returns 0 if this validates, a positive error code number otherwise
 *         and -1 in case of internal or API error.
 */
int
xmlValidateName(const xmlChar *value, int space) {
    const xmlChar *cur = value;
    int c,l;

    /*
     * First quick algorithm for ASCII range
     */
    if (space)
	while (IS_BLANK(*cur)) cur++;
    if (((*cur >= 'a') && (*cur <= 'z')) || ((*cur >= 'A') && (*cur <= 'Z')) ||
	(*cur == '_') || (*cur == ':'))
	cur++;
    else
	goto try_complex;
    while (((*cur >= 'a') && (*cur <= 'z')) ||
	   ((*cur >= 'A') && (*cur <= 'Z')) ||
	   ((*cur >= '0') && (*cur <= '9')) ||
	   (*cur == '_') || (*cur == '-') || (*cur == '.') || (*cur == ':'))
	cur++;
    if (space)
	while (IS_BLANK(*cur)) cur++;
    if (*cur == 0)
	return(0);

try_complex:
    /*
     * Second check for chars outside the ASCII range
     */
    cur = value;
    c = CUR_SCHAR(cur, l);
    if (space) {
	while (IS_BLANK(c)) {
	    cur += l;
	    c = CUR_SCHAR(cur, l);
	}
    }
    if ((!xmlIsLetter(c)) && (c != '_') && (c != ':'))
	return(1);
    cur += l;
    c = CUR_SCHAR(cur, l);
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    while (xmlIsLetter(c) || xmlIsDigit(c) || (c == '.') || (c == ':') ||
	   (c == '-') || (c == '_') || xmlIsCombining(c) || xmlIsExtender(c)) {
	cur += l;
	c = CUR_SCHAR(cur, l);
    }
    if (space) {
	while (IS_BLANK(c)) {
	    cur += l;
	    c = CUR_SCHAR(cur, l);
	}
    }
    if (c != 0)
	return(1);
    return(0);
}

/**
 * xmlValidateNMToken:
 * @value: the value to check
 * @space: allow spaces in front and end of the string
 *
 * Check that a value conforms to the lexical space of NMToken
 *
 * Returns 0 if this validates, a positive error code number otherwise
 *         and -1 in case of internal or API error.
 */
int
xmlValidateNMToken(const xmlChar *value, int space) {
    const xmlChar *cur = value;
    int c,l;

    /*
     * First quick algorithm for ASCII range
     */
    if (space)
	while (IS_BLANK(*cur)) cur++;
    if (((*cur >= 'a') && (*cur <= 'z')) ||
        ((*cur >= 'A') && (*cur <= 'Z')) ||
        ((*cur >= '0') && (*cur <= '9')) ||
        (*cur == '_') || (*cur == '-') || (*cur == '.') || (*cur == ':'))
	cur++;
    else
	goto try_complex;
    while (((*cur >= 'a') && (*cur <= 'z')) ||
	   ((*cur >= 'A') && (*cur <= 'Z')) ||
	   ((*cur >= '0') && (*cur <= '9')) ||
	   (*cur == '_') || (*cur == '-') || (*cur == '.') || (*cur == ':'))
	cur++;
    if (space)
	while (IS_BLANK(*cur)) cur++;
    if (*cur == 0)
	return(0);

try_complex:
    /*
     * Second check for chars outside the ASCII range
     */
    cur = value;
    c = CUR_SCHAR(cur, l);
    if (space) {
	while (IS_BLANK(c)) {
	    cur += l;
	    c = CUR_SCHAR(cur, l);
	}
    }
    if (!(xmlIsLetter(c) || xmlIsDigit(c) || (c == '.') || (c == ':') ||
        (c == '-') || (c == '_') || xmlIsCombining(c) || xmlIsExtender(c)))
	return(1);
    cur += l;
    c = CUR_SCHAR(cur, l);
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    while (xmlIsLetter(c) || xmlIsDigit(c) || (c == '.') || (c == ':') ||
	   (c == '-') || (c == '_') || xmlIsCombining(c) || xmlIsExtender(c)) {
	cur += l;
	c = CUR_SCHAR(cur, l);
    }
    if (space) {
	while (IS_BLANK(c)) {
	    cur += l;
	    c = CUR_SCHAR(cur, l);
	}
    }
    if (c != 0)
	return(1);
    return(0);
}

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/************************************************************************
 *									*
 *		Allocation and deallocation of basic structures		*
 *									*
 ************************************************************************/
 
/**
 * xmlSetBufferAllocationScheme:
 * @scheme:  allocation method to use
 * 
 * Set the buffer allocation method.  Types are
 * XML_BUFFER_ALLOC_EXACT - use exact sizes, keeps memory usage down
 * XML_BUFFER_ALLOC_DOUBLEIT - double buffer when extra needed, 
 *                             improves performance
 */
void
xmlSetBufferAllocationScheme(xmlBufferAllocationScheme scheme) {
    xmlBufferAllocScheme = scheme;
}

/**
 * xmlGetBufferAllocationScheme:
 *
 * Types are
 * XML_BUFFER_ALLOC_EXACT - use exact sizes, keeps memory usage down
 * XML_BUFFER_ALLOC_DOUBLEIT - double buffer when extra needed, 
 *                             improves performance
 * 
 * Returns the current allocation scheme
 */
xmlBufferAllocationScheme
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xmlGetBufferAllocationScheme(void) {
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    return(xmlBufferAllocScheme);
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}

/**
 * xmlNewNs:
 * @node:  the element carrying the namespace
 * @href:  the URI associated
 * @prefix:  the prefix for the namespace
 *
 * Creation of a new Namespace. This function will refuse to create
 * a namespace with a similar prefix than an existing one present on this
 * node.
 * We use href==NULL in the case of an element creation where the namespace
 * was not defined.
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 * Returns a new namespace pointer or NULL
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 */
xmlNsPtr
xmlNewNs(xmlNodePtr node, const xmlChar *href, const xmlChar *prefix) {
    xmlNsPtr cur;

    if ((node != NULL) && (node->type != XML_ELEMENT_NODE))
	return(NULL);

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    if ((prefix != NULL) && (xmlStrEqual(prefix, BAD_CAST "xml")))
	return(NULL);

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    /*
     * Allocate a new Namespace and fill the fields.
     */
    cur = (xmlNsPtr) xmlMalloc(sizeof(xmlNs));
    if (cur == NULL) {
        xmlGenericError(xmlGenericErrorContext,
		"xmlNewNs : malloc failed\n");
	return(NULL);
    }
    memset(cur, 0, sizeof(xmlNs));
    cur->type = XML_LOCAL_NAMESPACE;

    if (href != NULL)
	cur->href = xmlStrdup(href); 
    if (prefix != NULL)
	cur->prefix = xmlStrdup(prefix); 

    /*
     * Add it at the end to preserve parsing order ...
     * and checks for existing use of the prefix
     */
    if (node != NULL) {
	if (node->nsDef == NULL) {
	    node->nsDef = cur;
	} else {
	    xmlNsPtr prev = node->nsDef;

	    if (((prev->prefix == NULL) && (cur->prefix == NULL)) ||
		(xmlStrEqual(prev->prefix, cur->prefix))) {
		xmlFreeNs(cur);
		return(NULL);
	    }    
	    while (prev->next != NULL) {
	        prev = prev->next;
		if (((prev->prefix == NULL) && (cur->prefix == NULL)) ||
		    (xmlStrEqual(prev->prefix, cur->prefix))) {
		    xmlFreeNs(cur);
		    return(NULL);
		}    
	    }
	    prev->next = cur;
	}
    }
    return(cur);
}

/**
 * xmlSetNs:
 * @node:  a node in the document
 * @ns:  a namespace pointer
 *
 * Associate a namespace to a node, a posteriori.
 */
void
xmlSetNs(xmlNodePtr node, xmlNsPtr ns) {
    if (node == NULL) {
#ifdef DEBUG_TREE
        xmlGenericError(xmlGenericErrorContext,
		"xmlSetNs: node == NULL\n");
#endif
	return;
    }
    node->ns = ns;
}

/**
 * xmlFreeNs:
 * @cur:  the namespace pointer
 *
 * Free up the structures associated to a namespace
 */
void
xmlFreeNs(xmlNsPtr cur) {
    if (cur == NULL) {
#ifdef DEBUG_TREE
        xmlGenericError(xmlGenericErrorContext,
		"xmlFreeNs : ns == NULL\n");
#endif
	return;
    }
    if (cur->href != NULL) xmlFree((char *) cur->href);
    if (cur->prefix != NULL) xmlFree((char *) cur->prefix);
    xmlFree(cur);
}

/**
 * xmlFreeNsList:
 * @cur:  the first namespace pointer
 *
 * Free up all the structures associated to the chained namespaces.
 */
void
xmlFreeNsList(xmlNsPtr cur) {
    xmlNsPtr next;
    if (cur == NULL) {
#ifdef DEBUG_TREE
        xmlGenericError(xmlGenericErrorContext,
		"xmlFreeNsList : ns == NULL\n");
#endif
	return;
    }
    while (cur != NULL) {
        next = cur->next;
        xmlFreeNs(cur);
	cur = next;
    }
}

/**
 * xmlNewDtd:
 * @doc:  the document pointer
 * @name:  the DTD name
 * @ExternalID:  the external ID
 * @SystemID:  the system ID
 *
 * Creation of a new DTD for the external subset. To create an
 * internal subset, use xmlCreateIntSubset().
 *
 * Returns a pointer to the new DTD structure
 */
xmlDtdPtr
xmlNewDtd(xmlDocPtr doc, const xmlChar *name,
                    const xmlChar *ExternalID, const xmlChar *SystemID) {
    xmlDtdPtr cur;

    if ((doc != NULL) && (doc->extSubset != NULL)) {
#ifdef DEBUG_TREE
        xmlGenericError(xmlGenericErrorContext,
		"xmlNewDtd(%s): document %s already have a DTD %s\n",
	    /* !!! */ (char *) name, doc->name,
	    /* !!! */ (char *)doc->extSubset->name);
#endif
	return(NULL);
    }

    /*
     * Allocate a new DTD and fill the fields.
     */
    cur = (xmlDtdPtr) xmlMalloc(sizeof(xmlDtd));
    if (cur == NULL) {
        xmlGenericError(xmlGenericErrorContext,
		"xmlNewDtd : malloc failed\n");
	return(NULL);
    }
    memset(cur, 0 , sizeof(xmlDtd));
    cur->type = XML_DTD_NODE;

    if (name != NULL)
	cur->name = xmlStrdup(name); 
    if (ExternalID != NULL)
	cur->ExternalID = xmlStrdup(ExternalID); 
    if (SystemID != NULL)
	cur->SystemID = xmlStrdup(SystemID); 
    if (doc != NULL)
	doc->extSubset = cur;
    cur->doc = doc;

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    if ((__xmlRegisterCallbacks) && (xmlRegisterNodeDefaultValue))
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	xmlRegisterNodeDefaultValue((xmlNodePtr)cur);
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    return(cur);
}

/**
 * xmlGetIntSubset:
 * @doc:  the document pointer
 *
 * Get the internal subset of a document
 * Returns a pointer to the DTD structure or NULL if not found
 */

xmlDtdPtr
xmlGetIntSubset(xmlDocPtr doc) {
    xmlNodePtr cur;

    if (doc == NULL)
	return(NULL);
    cur = doc->children;
    while (cur != NULL) {
	if (cur->type == XML_DTD_NODE)
	    return((xmlDtdPtr) cur);
	cur = cur->next;
    }
    return((xmlDtdPtr) doc->intSubset);
}

/**
 * xmlCreateIntSubset:
 * @doc:  the document pointer
 * @name:  the DTD name
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 * @ExternalID:  the external (PUBLIC) ID
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 * @SystemID:  the system ID
 *
 * Create the internal subset of a document
 * Returns a pointer to the new DTD structure
 */
xmlDtdPtr
xmlCreateIntSubset(xmlDocPtr doc, const xmlChar *name,
                   const xmlChar *ExternalID, const xmlChar *SystemID) {
    xmlDtdPtr cur;

    if ((doc != NULL) && (xmlGetIntSubset(doc) != NULL)) {
#ifdef DEBUG_TREE
        xmlGenericError(xmlGenericErrorContext,

     "xmlCreateIntSubset(): document %s already have an internal subset\n",
	    doc->name);
#endif
	return(NULL);
    }

    /*
     * Allocate a new DTD and fill the fields.
     */
    cur = (xmlDtdPtr) xmlMalloc(sizeof(xmlDtd));
    if (cur == NULL) {
        xmlGenericError(xmlGenericErrorContext,
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		"xmlCreateIntSubset : malloc failed\n");
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	return(NULL);
    }
    memset(cur, 0, sizeof(xmlDtd));
    cur->type = XML_DTD_NODE;

    if (name != NULL)
	cur->name = xmlStrdup(name); 
    if (ExternalID != NULL)
	cur->ExternalID = xmlStrdup(ExternalID); 
    if (SystemID != NULL)
	cur->SystemID = xmlStrdup(SystemID); 
    if (doc != NULL) {
	doc->intSubset = cur;
	cur->parent = doc;
	cur->doc = doc;
	if (doc->children == NULL) {
	    doc->children = (xmlNodePtr) cur;
	    doc->last = (xmlNodePtr) cur;
	} else {
	    if (doc->type == XML_HTML_DOCUMENT_NODE) {
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		xmlNodePtr prev;

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		prev = doc->children;
		prev->prev = (xmlNodePtr) cur;
		cur->next = prev;
		doc->children = (xmlNodePtr) cur;
	    } else {
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Daniel Veillard committed
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		xmlNodePtr next;

		next = doc->children;
		while ((next != NULL) && (next->type != XML_ELEMENT_NODE))
		    next = next->next;
		if (next == NULL) {
		    cur->prev = doc->last;
		    cur->prev->next = (xmlNodePtr) cur;
		    cur->next = NULL;
		    doc->last = (xmlNodePtr) cur;
		} else {
		    cur->next = next;
		    cur->prev = next->prev;
		    if (cur->prev == NULL)
			doc->children = (xmlNodePtr) cur;
		    else
			cur->prev->next = (xmlNodePtr) cur;
		    next->prev = (xmlNodePtr) cur;
		}
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	    }
	}
    }
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    if ((__xmlRegisterCallbacks) && (xmlRegisterNodeDefaultValue))
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	xmlRegisterNodeDefaultValue((xmlNodePtr)cur);
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    return(cur);
}

/**
 * xmlFreeDtd:
 * @cur:  the DTD structure to free up
 *
 * Free a DTD structure.
 */
void
xmlFreeDtd(xmlDtdPtr cur) {
    if (cur == NULL) {
#ifdef DEBUG_TREE
        xmlGenericError(xmlGenericErrorContext,
		"xmlFreeDtd : DTD == NULL\n");
#endif
	return;
    }
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    if ((__xmlRegisterCallbacks) && (xmlDeregisterNodeDefaultValue))
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	xmlDeregisterNodeDefaultValue((xmlNodePtr)cur);

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    if (cur->children != NULL) {
	xmlNodePtr next, c = cur->children;

	/*
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	 * Cleanup all the DTD comments they are not in the DTD
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	 * indexes.
	 */
        while (c != NULL) {
	    next = c->next;
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	    if ((c->type == XML_COMMENT_NODE) || (c->type == XML_PI_NODE)) {
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		xmlUnlinkNode(c);
		xmlFreeNode(c);
	    }
	    c = next;
	}
    }
    if (cur->name != NULL) xmlFree((char *) cur->name);
    if (cur->SystemID != NULL) xmlFree((char *) cur->SystemID);
    if (cur->ExternalID != NULL) xmlFree((char *) cur->ExternalID);
    /* TODO !!! */
    if (cur->notations != NULL)
        xmlFreeNotationTable((xmlNotationTablePtr) cur->notations);
    
    if (cur->elements != NULL)
        xmlFreeElementTable((xmlElementTablePtr) cur->elements);
    if (cur->attributes != NULL)
        xmlFreeAttributeTable((xmlAttributeTablePtr) cur->attributes);
    if (cur->entities != NULL)
        xmlFreeEntitiesTable((xmlEntitiesTablePtr) cur->entities);
    if (cur->pentities != NULL)
        xmlFreeEntitiesTable((xmlEntitiesTablePtr) cur->pentities);

    xmlFree(cur);
}

/**
 * xmlNewDoc:
 * @version:  xmlChar string giving the version of XML "1.0"
 *
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 * Creates a new XML document
 *
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 * Returns a new document
 */
xmlDocPtr
xmlNewDoc(const xmlChar *version) {
    xmlDocPtr cur;

    if (version == NULL)
	version = (const xmlChar *) "1.0";

    /*
     * Allocate a new document and fill the fields.
     */
    cur = (xmlDocPtr) xmlMalloc(sizeof(xmlDoc));
    if (cur == NULL) {
        xmlGenericError(xmlGenericErrorContext,
		"xmlNewDoc : malloc failed\n");
	return(NULL);
    }
    memset(cur, 0, sizeof(xmlDoc));
    cur->type = XML_DOCUMENT_NODE;

    cur->version = xmlStrdup(version); 
    cur->standalone = -1;
    cur->compression = -1; /* not initialized */
    cur->doc = cur;
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    cur->charset = XML_CHAR_ENCODING_UTF8;
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    if ((__xmlRegisterCallbacks) && (xmlRegisterNodeDefaultValue))
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	xmlRegisterNodeDefaultValue((xmlNodePtr)cur);
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    return(cur);
}

/**
 * xmlFreeDoc:
 * @cur:  pointer to the document
 *
 * Free up all the structures used by a document, tree included.
 */
void
xmlFreeDoc(xmlDocPtr cur) {
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    xmlDtdPtr extSubset, intSubset;

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    if (cur == NULL) {
#ifdef DEBUG_TREE
        xmlGenericError(xmlGenericErrorContext,
		"xmlFreeDoc : document == NULL\n");
#endif
	return;
    }
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    if ((__xmlRegisterCallbacks) && (xmlDeregisterNodeDefaultValue))
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	xmlDeregisterNodeDefaultValue((xmlNodePtr)cur);

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    /*
     * Do this before freeing the children list to avoid ID lookups
     */
    if (cur->ids != NULL) xmlFreeIDTable((xmlIDTablePtr) cur->ids);
    cur->ids = NULL;
    if (cur->refs != NULL) xmlFreeRefTable((xmlRefTablePtr) cur->refs);
    cur->refs = NULL;
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    extSubset = cur->extSubset;
    intSubset = cur->intSubset;
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    if (intSubset == extSubset)
	extSubset = NULL;
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    if (extSubset != NULL) {
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	xmlUnlinkNode((xmlNodePtr) cur->extSubset);
	cur->extSubset = NULL;
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	xmlFreeDtd(extSubset);
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    }
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    if (intSubset != NULL) {
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	xmlUnlinkNode((xmlNodePtr) cur->intSubset);
	cur->intSubset = NULL;
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	xmlFreeDtd(intSubset);
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    }

    if (cur->children != NULL) xmlFreeNodeList(cur->children);

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    if (cur->version != NULL) xmlFree((char *) cur->version);
    if (cur->name != NULL) xmlFree((char *) cur->name);
    if (cur->encoding != NULL) xmlFree((char *) cur->encoding);
    if (cur->oldNs != NULL) xmlFreeNsList(cur->oldNs);
    if (cur->URL != NULL) xmlFree((char *) cur->URL);
    xmlFree(cur);
}

/**
 * xmlStringLenGetNodeList:
 * @doc:  the document
 * @value:  the value of the text
 * @len:  the length of the string value
 *
 * Parse the value string and build the node list associated. Should
 * produce a flat tree with only TEXTs and ENTITY_REFs.
 * Returns a pointer to the first child
 */
xmlNodePtr
xmlStringLenGetNodeList(xmlDocPtr doc, const xmlChar *value, int len) {
    xmlNodePtr ret = NULL, last = NULL;
    xmlNodePtr node;
    xmlChar *val;
    const xmlChar *cur = value;
    const xmlChar *q;
    xmlEntityPtr ent;

    if (value == NULL) return(NULL);

    q = cur;
    while ((*cur != 0) && (cur - value < len)) {
	if (*cur == '&') {
	    /*
	     * Save the current text.
	     */
            if (cur != q) {
		if ((last != NULL) && (last->type == XML_TEXT_NODE)) {
		    xmlNodeAddContentLen(last, q, cur - q);
		} else {
		    node = xmlNewDocTextLen(doc, q, cur - q);
		    if (node == NULL) return(ret);
		    if (last == NULL)
			last = ret = node;
		    else {
			last->next = node;
			node->prev = last;
			last = node;
		    }
		}
	    }
	    /*
	     * Read the entity string
	     */
	    cur++;
	    q = cur;
	    while ((*cur != 0) && (cur - value < len) && (*cur != ';')) cur++;
	    if ((*cur == 0) || (cur - value >= len)) {
#ifdef DEBUG_TREE
	        xmlGenericError(xmlGenericErrorContext,
		    "xmlStringLenGetNodeList: unterminated entity %30s\n", q);
#endif
	        return(ret);
	    }
            if (cur != q) {
		/*
		 * Predefined entities don't generate nodes
		 */
		val = xmlStrndup(q, cur - q);
		ent = xmlGetDocEntity(doc, val);
		if ((ent != NULL) &&
		    (ent->etype == XML_INTERNAL_PREDEFINED_ENTITY)) {
		    if (last == NULL) {
		        node = xmlNewDocText(doc, ent->content);
			last = ret = node;
		    } else
		        xmlNodeAddContent(last, ent->content);
		        
		} else {
		    /*
		     * Create a new REFERENCE_REF node
		     */
		    node = xmlNewReference(doc, val);
		    if (node == NULL) {
			if (val != NULL) xmlFree(val);
		        return(ret);
		    }
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			else if ((ent != NULL) && (ent->children == NULL)) {
				xmlNodePtr tmp;

				ent->children =
					xmlStringGetNodeList(doc, (const xmlChar*)node->content);
				tmp = ent->children;
				while (tmp) {
					tmp->parent = (xmlNodePtr)ent;
					tmp = tmp->next;
				}
			}
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		    if (last == NULL)
			last = ret = node;
		    else {
			last->next = node;
			node->prev = last;
			last = node;
		    }
		}
		xmlFree(val);
	    }
	    cur++;
	    q = cur;
	} else 
	    cur++;
    }
    if (cur != q) {
        /*
	 * Handle the last piece of text.
	 */
	if ((last != NULL) && (last->type == XML_TEXT_NODE)) {
	    xmlNodeAddContentLen(last, q, cur - q);
	} else {
	    node = xmlNewDocTextLen(doc, q, cur - q);
	    if (node == NULL) return(ret);
	    if (last == NULL)
		last = ret = node;
	    else {
		last->next = node;
		node->prev = last;
		last = node;
	    }
	}
    }
    return(ret);
}

/**
 * xmlStringGetNodeList:
 * @doc:  the document
 * @value:  the value of the attribute
 *
 * Parse the value string and build the node list associated. Should
 * produce a flat tree with only TEXTs and ENTITY_REFs.
 * Returns a pointer to the first child
 */
xmlNodePtr
xmlStringGetNodeList(xmlDocPtr doc, const xmlChar *value) {
    xmlNodePtr ret = NULL, last = NULL;
    xmlNodePtr node;
    xmlChar *val;
    const xmlChar *cur = value;
    const xmlChar *q;
    xmlEntityPtr ent;

    if (value == NULL) return(NULL);

    q = cur;
    while (*cur != 0) {
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	if (cur[0] == '&') {
	    int charval = 0;
	    xmlChar tmp;

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	    /*
	     * Save the current text.
	     */
            if (cur != q) {
		if ((last != NULL) && (last->type == XML_TEXT_NODE)) {
		    xmlNodeAddContentLen(last, q, cur - q);
		} else {
		    node = xmlNewDocTextLen(doc, q, cur - q);
		    if (node == NULL) return(ret);
		    if (last == NULL)
			last = ret = node;
		    else {
			last->next = node;
			node->prev = last;
			last = node;
		    }
		}
	    }
	    q = cur;
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	    if ((cur[1] == '#') && (cur[2] == 'x')) {
		cur += 3;
		tmp = *cur;
		while (tmp != ';') { /* Non input consuming loop */
		    if ((tmp >= '0') && (tmp <= '9')) 
			charval = charval * 16 + (tmp - '0');
		    else if ((tmp >= 'a') && (tmp <= 'f'))
			charval = charval * 16 + (tmp - 'a') + 10;
		    else if ((tmp >= 'A') && (tmp <= 'F'))
			charval = charval * 16 + (tmp - 'A') + 10;
		    else {
			xmlGenericError(xmlGenericErrorContext,
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		    "xmlStringGetNodeList: invalid hexadecimal charvalue\n");
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			charval = 0;
			break;
		    }
		    cur++;
		    tmp = *cur;
		}
		if (tmp == ';')
		    cur++;
		q = cur;
	    } else if  (cur[1] == '#') {
		cur += 2;
		tmp = *cur;
		while (tmp != ';') { /* Non input consuming loops */
		    if ((tmp >= '0') && (tmp <= '9')) 
			charval = charval * 10 + (tmp - '0');
		    else {
			xmlGenericError(xmlGenericErrorContext,
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		    "xmlStringGetNodeList: invalid decimal charvalue\n");
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			charval = 0;
			break;
		    }
		    cur++;
		    tmp = *cur;
		}
		if (tmp == ';')
		    cur++;
		q = cur;
	    } else {
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		/*
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		 * Read the entity string
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		 */
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		cur++;
		q = cur;
		while ((*cur != 0) && (*cur != ';')) cur++;
		if (*cur == 0) {
#ifdef DEBUG_TREE
		    xmlGenericError(xmlGenericErrorContext,
			    "xmlStringGetNodeList: unterminated entity %30s\n", q);
#endif
		    return(ret);
		}
		if (cur != q) {
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		    /*
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		     * Predefined entities don't generate nodes
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		     */
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		    val = xmlStrndup(q, cur - q);
		    ent = xmlGetDocEntity(doc, val);
		    if ((ent != NULL) &&
			(ent->etype == XML_INTERNAL_PREDEFINED_ENTITY)) {
			if (last == NULL) {
			    node = xmlNewDocText(doc, ent->content);
			    last = ret = node;
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			} else if (last->type != XML_TEXT_NODE) {
			    node = xmlNewDocText(doc, ent->content);
			    last = xmlAddNextSibling(last, node);
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			} else
			    xmlNodeAddContent(last, ent->content);
			    
		    } else {
			/*
			 * Create a new REFERENCE_REF node
			 */
			node = xmlNewReference(doc, val);
			if (node == NULL) {
			    if (val != NULL) xmlFree(val);
			    return(ret);
			}
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			else if ((ent != NULL) && (ent->children == NULL)) {
			    xmlNodePtr temp;

			    ent->children = xmlStringGetNodeList(doc,
				    (const xmlChar*)node->content);
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			    ent->owner = 1;
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			    temp = ent->children;
			    while (temp) {
				temp->parent = (xmlNodePtr)ent;
				temp = temp->next;
			    }
			}
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			if (last == NULL) {
			    last = ret = node;
			} else {
			    last = xmlAddNextSibling(last, node);
			}
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		    }
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		    xmlFree(val);
		}
		cur++;
		q = cur;
	    }
	    if (charval != 0) {
		xmlChar buf[10];
		int len;

		len = xmlCopyCharMultiByte(buf, charval);
		buf[len] = 0;
		node = xmlNewDocText(doc, buf);
		if (node != NULL) {
		    if (last == NULL) {
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			last = ret = node;
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		    } else {
			last = xmlAddNextSibling(last, node);
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		    }
		}
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		charval = 0;
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	    }
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	} else
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	    cur++;
    }
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    if ((cur != q) || (ret == NULL)) {
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        /*
	 * Handle the last piece of text.
	 */
	if ((last != NULL) && (last->type == XML_TEXT_NODE)) {
	    xmlNodeAddContentLen(last, q, cur - q);
	} else {
	    node = xmlNewDocTextLen(doc, q, cur - q);
	    if (node == NULL) return(ret);
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	    if (last == NULL) {
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		last = ret = node;
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	    } else {
		last = xmlAddNextSibling(last, node);
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	    }
	}
    }
    return(ret);
}

/**
 * xmlNodeListGetString:
 * @doc:  the document
 * @list:  a Node list
 * @inLine:  should we replace entity contents or show their external form
 *
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 * Build the string equivalent to the text contained in the Node list
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 * made of TEXTs and ENTITY_REFs
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 *
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 * Returns a pointer to the string copy, the caller must free it with xmlFree().
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 */
xmlChar *
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xmlNodeListGetString(xmlDocPtr doc, xmlNodePtr list, int inLine)
{
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    xmlNodePtr node = list;
    xmlChar *ret = NULL;
    xmlEntityPtr ent;

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    if (list == NULL)
        return (NULL);
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    while (node != NULL) {
        if ((node->type == XML_TEXT_NODE) ||
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            (node->type == XML_CDATA_SECTION_NODE)) {
            if (inLine) {
                ret = xmlStrcat(ret, node->content);
            } else {
                xmlChar *buffer;
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                buffer = xmlEncodeEntitiesReentrant(doc, node->content);
                if (buffer != NULL) {
                    ret = xmlStrcat(ret, buffer);
                    xmlFree(buffer);
                }
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            }
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        } else if (node->type == XML_ENTITY_REF_NODE) {
            if (inLine) {
                ent = xmlGetDocEntity(doc, node->name);
                if (ent != NULL) {
                    xmlChar *buffer;

                    /* an entity content can be any "well balanced chunk",
                     * i.e. the result of the content [43] production:
                     * http://www.w3.org/TR/REC-xml#NT-content.
                     * So it can contain text, CDATA section or nested
                     * entity reference nodes (among others).
                     * -> we recursive  call xmlNodeListGetString()
                     * which handles these types */
                    buffer = xmlNodeListGetString(doc, ent->children, 1);
                    if (buffer != NULL) {
                        ret = xmlStrcat(ret, buffer);
                        xmlFree(buffer);
                    }
                } else {
                    ret = xmlStrcat(ret, node->content);
                }
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            } else {
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                xmlChar buf[2];

                buf[0] = '&';
                buf[1] = 0;
                ret = xmlStrncat(ret, buf, 1);
                ret = xmlStrcat(ret, node->name);
                buf[0] = ';';
                buf[1] = 0;
                ret = xmlStrncat(ret, buf, 1);
            }
        }
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#if 0
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        else {
            xmlGenericError(xmlGenericErrorContext,
                            "xmlGetNodeListString : invalid node type %d\n",
                            node->type);
        }
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#endif
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        node = node->next;
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    }
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    return (ret);
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}
/**
 * xmlNodeListGetRawString:
 * @doc:  the document
 * @list:  a Node list
 * @inLine:  should we replace entity contents or show their external form
 *
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 * Builds the string equivalent to the text contained in the Node list
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 * made of TEXTs and ENTITY_REFs, contrary to xmlNodeListGetString()
 * this function doesn't do any character encoding handling.
 *
1425
 * Returns a pointer to the string copy, the caller must free it with xmlFree().
1426 1427
 */
xmlChar *
1428 1429
xmlNodeListGetRawString(xmlDocPtr doc, xmlNodePtr list, int inLine)
{
1430 1431 1432 1433
    xmlNodePtr node = list;
    xmlChar *ret = NULL;
    xmlEntityPtr ent;

1434 1435
    if (list == NULL)
        return (NULL);
1436 1437

    while (node != NULL) {
1438
        if ((node->type == XML_TEXT_NODE) ||
1439 1440 1441 1442 1443
            (node->type == XML_CDATA_SECTION_NODE)) {
            if (inLine) {
                ret = xmlStrcat(ret, node->content);
            } else {
                xmlChar *buffer;
1444

1445 1446 1447 1448 1449
                buffer = xmlEncodeSpecialChars(doc, node->content);
                if (buffer != NULL) {
                    ret = xmlStrcat(ret, buffer);
                    xmlFree(buffer);
                }
1450
            }
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        } else if (node->type == XML_ENTITY_REF_NODE) {
            if (inLine) {
                ent = xmlGetDocEntity(doc, node->name);
                if (ent != NULL) {
                    xmlChar *buffer;

                    /* an entity content can be any "well balanced chunk",
                     * i.e. the result of the content [43] production:
                     * http://www.w3.org/TR/REC-xml#NT-content.
                     * So it can contain text, CDATA section or nested
                     * entity reference nodes (among others).
                     * -> we recursive  call xmlNodeListGetRawString()
                     * which handles these types */
                    buffer =
                        xmlNodeListGetRawString(doc, ent->children, 1);
                    if (buffer != NULL) {
                        ret = xmlStrcat(ret, buffer);
                        xmlFree(buffer);
                    }
                } else {
                    ret = xmlStrcat(ret, node->content);
                }
1473
            } else {
1474 1475 1476 1477 1478 1479 1480 1481 1482 1483 1484
                xmlChar buf[2];

                buf[0] = '&';
                buf[1] = 0;
                ret = xmlStrncat(ret, buf, 1);
                ret = xmlStrcat(ret, node->name);
                buf[0] = ';';
                buf[1] = 0;
                ret = xmlStrncat(ret, buf, 1);
            }
        }
1485
#if 0
1486 1487 1488 1489 1490
        else {
            xmlGenericError(xmlGenericErrorContext,
                            "xmlGetNodeListString : invalid node type %d\n",
                            node->type);
        }
1491
#endif
1492
        node = node->next;
1493
    }
1494
    return (ret);
1495 1496 1497 1498 1499 1500 1501 1502 1503 1504 1505 1506 1507 1508 1509 1510 1511 1512 1513 1514 1515 1516 1517
}

/**
 * xmlNewProp:
 * @node:  the holding node
 * @name:  the name of the attribute
 * @value:  the value of the attribute
 *
 * Create a new property carried by a node.
 * Returns a pointer to the attribute
 */
xmlAttrPtr
xmlNewProp(xmlNodePtr node, const xmlChar *name, const xmlChar *value) {
    xmlAttrPtr cur;
    xmlDocPtr doc = NULL;

    if (name == NULL) {
#ifdef DEBUG_TREE
        xmlGenericError(xmlGenericErrorContext,
		"xmlNewProp : name == NULL\n");
#endif
	return(NULL);
    }
1518 1519
    if ((node != NULL) && (node->type != XML_ELEMENT_NODE))
	return(NULL);
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    /*
     * Allocate a new property and fill the fields.
     */
    cur = (xmlAttrPtr) xmlMalloc(sizeof(xmlAttr));
    if (cur == NULL) {
        xmlGenericError(xmlGenericErrorContext,
		"xmlNewProp : malloc failed\n");
	return(NULL);
    }
    memset(cur, 0, sizeof(xmlAttr));
    cur->type = XML_ATTRIBUTE_NODE;

    cur->parent = node; 
    if (node != NULL) {
	doc = node->doc;
	cur->doc = doc;
    }
    cur->name = xmlStrdup(name);
    if (value != NULL