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fuchsia / third_party / libxml2 / refs/heads/upstream/master / . / tree.c
blob: 8e91d3af661d9a0e87ea81ebf7107836d050ff44 [file] [log] [blame]
/*
* tree.c : implementation of access function for an XML tree.
*
* References:
* XHTML 1.0 W3C REC: http://www.w3.org/TR/2002/REC-xhtml1-20020801/
*
* See Copyright for the status of this software.
*
* daniel@veillard.com
*
*/
/* To avoid EBCDIC trouble when parsing on zOS */
#if defined(__MVS__)
#pragma convert("ISO8859-1")
#endif
#define IN_LIBXML
#include "libxml.h"
#include <string.h> /* for memset() only ! */
#include <stddef.h>
#include <limits.h>
#include <ctype.h>
#include <stdlib.h>
#ifdef LIBXML_ZLIB_ENABLED
#include <zlib.h>
#endif
#include <libxml/tree.h>
#include <libxml/xmlmemory.h>
#include <libxml/parser.h>
#include <libxml/uri.h>
#include <libxml/entities.h>
#include <libxml/xmlerror.h>
#include <libxml/parserInternals.h>
#ifdef LIBXML_HTML_ENABLED
#include <libxml/HTMLtree.h>
#endif
#ifdef LIBXML_DEBUG_ENABLED
#include <libxml/debugXML.h>
#endif
#include "private/buf.h"
#include "private/entities.h"
#include "private/error.h"
#include "private/tree.h"
int __xmlRegisterCallbacks = 0;
/************************************************************************
* *
* Forward declarations *
* *
************************************************************************/
static xmlNsPtr
xmlNewReconciledNs(xmlNodePtr tree, xmlNsPtr ns);
static xmlAttrPtr
xmlGetPropNodeInternal(const xmlNode *node, const xmlChar *name,
const xmlChar *nsName, int useDTD);
static xmlChar* xmlGetPropNodeValueInternal(const xmlAttr *prop);
static void
xmlBufGetChildContent(xmlBufPtr buf, const xmlNode *tree);
static void
xmlUnlinkNodeInternal(xmlNodePtr cur);
/************************************************************************
* *
* A few static variables and macros *
* *
************************************************************************/
/* #undef xmlStringText */
const xmlChar xmlStringText[] = { 't', 'e', 'x', 't', 0 };
/* #undef xmlStringTextNoenc */
const xmlChar xmlStringTextNoenc[] =
{ 't', 'e', 'x', 't', 'n', 'o', 'e', 'n', 'c', 0 };
/* #undef xmlStringComment */
const xmlChar xmlStringComment[] = { 'c', 'o', 'm', 'm', 'e', 'n', 't', 0 };
static int xmlCompressMode = 0;
#define IS_STR_XML(str) ((str != NULL) && (str[0] == 'x') && \
(str[1] == 'm') && (str[2] == 'l') && (str[3] == 0))
/************************************************************************
* *
* Functions to move to entities.c once the *
* API freeze is smoothen and they can be made public. *
* *
************************************************************************/
#include <libxml/hash.h>
#ifdef LIBXML_TREE_ENABLED
/**
* 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(const xmlDtd *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 parameter 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(const xmlDtd *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);
}
#endif /* LIBXML_TREE_ENABLED */
/************************************************************************
* *
* 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) return(NULL);
if (prefix == NULL) return((xmlChar *) ncname);
lenn = strlen((char *) ncname);
lenp = strlen((char *) prefix);
if ((memory == NULL) || (len < lenn + lenp + 2)) {
ret = (xmlChar *) xmlMallocAtomic(lenn + lenp + 2);
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 **
*
* DEPRECATED: This function doesn't report malloc failures.
*
* parse an XML qualified name string
*
* [NS 5] QName ::= (Prefix ':')? LocalPart
*
* [NS 6] Prefix ::= NCName
*
* [NS 7] LocalPart ::= NCName
*
* Returns NULL if the name doesn't have a prefix. Otherwise, returns the
* local part, and prefix is updated to get the Prefix. Both the return value
* and the prefix must be freed by the caller.
*/
xmlChar *
xmlSplitQName2(const xmlChar *name, xmlChar **prefix) {
int len = 0;
xmlChar *ret = NULL;
if (prefix == NULL) return(NULL);
*prefix = NULL;
if (name == NULL) return(NULL);
/* 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) || (name[len+1] == 0))
return(NULL);
*prefix = xmlStrndup(name, len);
if (*prefix == NULL)
return(NULL);
ret = xmlStrdup(&name[len + 1]);
if (ret == NULL) {
if (*prefix != NULL) {
xmlFree(*prefix);
*prefix = NULL;
}
return(NULL);
}
return(ret);
}
/**
* xmlSplitQName3:
* @name: the full QName
* @len: an int *
*
* parse an XML qualified name string,i
*
* returns NULL if it is not a Qualified Name, otherwise, update len
* with the length in byte of the prefix and return a pointer
* to the start of the name without the prefix
*/
const xmlChar *
xmlSplitQName3(const xmlChar *name, int *len) {
int l = 0;
if (name == NULL) return(NULL);
if (len == NULL) return(NULL);
/* 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[l] != 0) && (name[l] != ':'))
l++;
if ((name[l] == 0) || (name[l+1] == 0))
return(NULL);
*len = l;
return(&name[l+1]);
}
/**
* xmlSplitQName4:
* @name: the full QName
* @prefixPtr: pointer to resulting prefix
*
* Parse a QName. The return value points to the start of the local
* name in the input string. If the QName has a prefix, it will be
* allocated and stored in @prefixPtr. This string must be freed by
* the caller. If there's no prefix, @prefixPtr is set to NULL.
*
* Returns the local name or NULL if a memory allocation failed.
*/
const xmlChar *
xmlSplitQName4(const xmlChar *name, xmlChar **prefixPtr) {
xmlChar *prefix;
int l = 0;
if ((name == NULL) || (prefixPtr == NULL))
return(NULL);
*prefixPtr = NULL;
/* nasty but valid */
if (name[0] == ':')
return(name);
/*
* 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[l] != 0) && (name[l] != ':'))
l++;
/*
* TODO: What about names with multiple colons?
*/
if ((name[l] == 0) || (name[l+1] == 0))
return(name);
prefix = xmlStrndup(name, l);
if (prefix == NULL)
return(NULL);
*prefixPtr = prefix;
return(&name[l+1]);
}
/************************************************************************
* *
* 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;
if (value == NULL)
return(-1);
/*
* First quick algorithm for ASCII range
*/
if (space)
while (IS_BLANK_CH(*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_CH(*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 ((!IS_LETTER(c)) && (c != '_'))
return(1);
cur += l;
c = CUR_SCHAR(cur, l);
while (IS_LETTER(c) || IS_DIGIT(c) || (c == '.') ||
(c == '-') || (c == '_') || IS_COMBINING(c) ||
IS_EXTENDER(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);
}
#if defined(LIBXML_TREE_ENABLED) || defined(LIBXML_SCHEMAS_ENABLED)
/**
* 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;
if (value == NULL)
return(-1);
/*
* First quick algorithm for ASCII range
*/
if (space)
while (IS_BLANK_CH(*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_CH(*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 ((!IS_LETTER(c)) && (c != '_'))
return(1);
cur += l;
c = CUR_SCHAR(cur, l);
while (IS_LETTER(c) || IS_DIGIT(c) || (c == '.') ||
(c == '-') || (c == '_') || IS_COMBINING(c) ||
IS_EXTENDER(c)) {
cur += l;
c = CUR_SCHAR(cur, l);
}
if (c == ':') {
cur += l;
c = CUR_SCHAR(cur, l);
if ((!IS_LETTER(c)) && (c != '_'))
return(1);
cur += l;
c = CUR_SCHAR(cur, l);
while (IS_LETTER(c) || IS_DIGIT(c) || (c == '.') ||
(c == '-') || (c == '_') || IS_COMBINING(c) ||
IS_EXTENDER(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;
if (value == NULL)
return(-1);
/*
* First quick algorithm for ASCII range
*/
if (space)
while (IS_BLANK_CH(*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_CH(*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 ((!IS_LETTER(c)) && (c != '_') && (c != ':'))
return(1);
cur += l;
c = CUR_SCHAR(cur, l);
while (IS_LETTER(c) || IS_DIGIT(c) || (c == '.') || (c == ':') ||
(c == '-') || (c == '_') || IS_COMBINING(c) || IS_EXTENDER(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;
if (value == NULL)
return(-1);
/*
* First quick algorithm for ASCII range
*/
if (space)
while (IS_BLANK_CH(*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_CH(*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 (!(IS_LETTER(c) || IS_DIGIT(c) || (c == '.') || (c == ':') ||
(c == '-') || (c == '_') || IS_COMBINING(c) || IS_EXTENDER(c)))
return(1);
cur += l;
c = CUR_SCHAR(cur, l);
while (IS_LETTER(c) || IS_DIGIT(c) || (c == '.') || (c == ':') ||
(c == '-') || (c == '_') || IS_COMBINING(c) || IS_EXTENDER(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);
}
#endif /* LIBXML_TREE_ENABLED */
/************************************************************************
* *
* 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) {
if ((scheme == XML_BUFFER_ALLOC_EXACT) ||
(scheme == XML_BUFFER_ALLOC_DOUBLEIT) ||
(scheme == XML_BUFFER_ALLOC_HYBRID))
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
* XML_BUFFER_ALLOC_HYBRID - use exact sizes on small strings to keep memory usage tight
* in normal usage, and doubleit on large strings to avoid
* pathological performance.
*
* Returns the current allocation scheme
*/
xmlBufferAllocationScheme
xmlGetBufferAllocationScheme(void) {
return(xmlBufferAllocScheme);
}
/**
* xmlNewNs:
* @node: the element carrying the namespace (optional)
* @href: the URI associated
* @prefix: the prefix for the namespace (optional)
*
* Create a new namespace. For a default namespace, @prefix should be
* NULL. The namespace URI in @href is not checked. You should make sure
* to pass a valid URI.
*
* If @node is provided, it must be an element node. The namespace will
* be appended to the node's namespace declarations. It is an error if
* the node already has a definition for the prefix or default
* namespace.
*
* Returns a new namespace pointer or NULL if arguments are invalid,
* the prefix is already in use or a memory allocation failed.
*/
xmlNsPtr
xmlNewNs(xmlNodePtr node, const xmlChar *href, const xmlChar *prefix) {
xmlNsPtr cur;
if ((node != NULL) && (node->type != XML_ELEMENT_NODE))
return(NULL);
/*
* Allocate a new Namespace and fill the fields.
*/
cur = (xmlNsPtr) xmlMalloc(sizeof(xmlNs));
if (cur == NULL)
return(NULL);
memset(cur, 0, sizeof(xmlNs));
cur->type = XML_LOCAL_NAMESPACE;
if (href != NULL) {
cur->href = xmlStrdup(href);
if (cur->href == NULL)
goto error;
}
if (prefix != NULL) {
cur->prefix = xmlStrdup(prefix);
if (cur->prefix == NULL)
goto error;
}
/*
* 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 ((xmlStrEqual(prev->prefix, cur->prefix)) &&
(prev->href != NULL))
goto error;
while (prev->next != NULL) {
prev = prev->next;
if ((xmlStrEqual(prev->prefix, cur->prefix)) &&
(prev->href != NULL))
goto error;
}
prev->next = cur;
}
}
return(cur);
error:
xmlFreeNs(cur);
return(NULL);
}
/**
* xmlSetNs:
* @node: a node in the document
* @ns: a namespace pointer (optional)
*
* Set the namespace of an element or attribute node. Passing a NULL
* namespace unsets the namespace.
*/
void
xmlSetNs(xmlNodePtr node, xmlNsPtr ns) {
if (node == NULL) {
return;
}
if ((node->type == XML_ELEMENT_NODE) ||
(node->type == XML_ATTRIBUTE_NODE))
node->ns = ns;
}
/**
* xmlFreeNs:
* @cur: the namespace pointer
*
* Free an xmlNs object.
*/
void
xmlFreeNs(xmlNsPtr cur) {
if (cur == NULL) {
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 a list of xmlNs objects.
*/
void
xmlFreeNsList(xmlNsPtr cur) {
xmlNsPtr next;
if (cur == NULL) {
return;
}
while (cur != NULL) {
next = cur->next;
xmlFreeNs(cur);
cur = next;
}
}
/**
* xmlNewDtd:
* @doc: the document pointer (optional)
* @name: the DTD name (optional)
* @ExternalID: the external ID (optional)
* @SystemID: the system ID (optional)
*
* Create a DTD node.
*
* If a document is provided, it is an error if it already has an
* external subset. If the document has no external subset, it
* will be set to the created DTD.
*
* To create an internal subset, use xmlCreateIntSubset().
*
* Returns a pointer to the new DTD object or NULL if arguments are
* invalid or a memory allocation failed.
*/
xmlDtdPtr
xmlNewDtd(xmlDocPtr doc, const xmlChar *name,
const xmlChar *ExternalID, const xmlChar *SystemID) {
xmlDtdPtr cur;
if ((doc != NULL) && (doc->extSubset != NULL)) {
return(NULL);
}
/*
* Allocate a new DTD and fill the fields.
*/
cur = (xmlDtdPtr) xmlMalloc(sizeof(xmlDtd));
if (cur == NULL)
return(NULL);
memset(cur, 0 , sizeof(xmlDtd));
cur->type = XML_DTD_NODE;
if (name != NULL) {
cur->name = xmlStrdup(name);
if (cur->name == NULL)
goto error;
}
if (ExternalID != NULL) {
cur->ExternalID = xmlStrdup(ExternalID);
if (cur->ExternalID == NULL)
goto error;
}
if (SystemID != NULL) {
cur->SystemID = xmlStrdup(SystemID);
if (cur->SystemID == NULL)
goto error;
}
if (doc != NULL)
doc->extSubset = cur;
cur->doc = doc;
if ((__xmlRegisterCallbacks) && (xmlRegisterNodeDefaultValue))
xmlRegisterNodeDefaultValue((xmlNodePtr)cur);
return(cur);
error:
xmlFreeDtd(cur);
return(NULL);
}
/**
* xmlGetIntSubset:
* @doc: the document pointer
*
* Get the internal subset of a document.
*
* Returns a pointer to the DTD object or NULL if not found.
*/
xmlDtdPtr
xmlGetIntSubset(const xmlDoc *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 (optional)
* @name: the DTD name (optional)
* @ExternalID: the external (PUBLIC) ID (optional)
* @SystemID: the system ID (optional)
*
* Create a DTD node.
*
* If a document is provided and it already has an internal subset,
* the existing DTD object is returned without creating a new object.
* If the document has no internal subset, it will be set to the
* created DTD.
*
* Returns a pointer to the new or existing DTD object or NULL if
* arguments are invalid or a memory allocation failed.
*/
xmlDtdPtr
xmlCreateIntSubset(xmlDocPtr doc, const xmlChar *name,
const xmlChar *ExternalID, const xmlChar *SystemID) {
xmlDtdPtr cur;
if (doc != NULL) {
cur = xmlGetIntSubset(doc);
if (cur != NULL)
return(cur);
}
/*
* Allocate a new DTD and fill the fields.
*/
cur = (xmlDtdPtr) xmlMalloc(sizeof(xmlDtd));
if (cur == NULL)
return(NULL);
memset(cur, 0, sizeof(xmlDtd));
cur->type = XML_DTD_NODE;
if (name != NULL) {
cur->name = xmlStrdup(name);
if (cur->name == NULL)
goto error;
}
if (ExternalID != NULL) {
cur->ExternalID = xmlStrdup(ExternalID);
if (cur->ExternalID == NULL)
goto error;
}
if (SystemID != NULL) {
cur->SystemID = xmlStrdup(SystemID);
if (cur->SystemID == NULL)
goto error;
}
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) {
xmlNodePtr prev;
prev = doc->children;
prev->prev = (xmlNodePtr) cur;
cur->next = prev;
doc->children = (xmlNodePtr) cur;
} else {
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;
}
}
}
}
if ((__xmlRegisterCallbacks) && (xmlRegisterNodeDefaultValue))
xmlRegisterNodeDefaultValue((xmlNodePtr)cur);
return(cur);
error:
xmlFreeDtd(cur);
return(NULL);
}
/**
* DICT_FREE:
* @str: a string
*
* Free a string if it is not owned by the "dict" dictionary in the
* current scope
*/
#define DICT_FREE(str) \
if ((str) && ((!dict) || \
(xmlDictOwns(dict, (const xmlChar *)(str)) == 0))) \
xmlFree((char *)(str));
/**
* xmlFreeDtd:
* @cur: the DTD structure to free up
*
* Free a DTD structure.
*/
void
xmlFreeDtd(xmlDtdPtr cur) {
xmlDictPtr dict = NULL;
if (cur == NULL) {
return;
}
if (cur->doc != NULL) dict = cur->doc->dict;
if ((__xmlRegisterCallbacks) && (xmlDeregisterNodeDefaultValue))
xmlDeregisterNodeDefaultValue((xmlNodePtr)cur);
if (cur->children != NULL) {
xmlNodePtr next, c = cur->children;
/*
* Cleanup all nodes which are not part of the specific lists
* of notations, elements, attributes and entities.
*/
while (c != NULL) {
next = c->next;
if ((c->type != XML_ELEMENT_DECL) &&
(c->type != XML_ATTRIBUTE_DECL) &&
(c->type != XML_ENTITY_DECL)) {
xmlUnlinkNodeInternal(c);
xmlFreeNode(c);
}
c = next;
}
}
DICT_FREE(cur->name)
DICT_FREE(cur->SystemID)
DICT_FREE(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: XML version string like "1.0" (optional)
*
* Creates a new XML document. If version is NULL, "1.0" is used.
*
* Returns a new document or NULL if a memory allocation failed.
*/
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)
return(NULL);
memset(cur, 0, sizeof(xmlDoc));
cur->type = XML_DOCUMENT_NODE;
cur->version = xmlStrdup(version);
if (cur->version == NULL) {
xmlFree(cur);
return(NULL);
}
cur->standalone = -1;
cur->compression = -1; /* not initialized */
cur->doc = cur;
cur->parseFlags = 0;
cur->properties = XML_DOC_USERBUILT;
/*
* The in memory encoding is always UTF8
* This field will never change and would
* be obsolete if not for binary compatibility.
*/
cur->charset = XML_CHAR_ENCODING_UTF8;
if ((__xmlRegisterCallbacks) && (xmlRegisterNodeDefaultValue))
xmlRegisterNodeDefaultValue((xmlNodePtr)cur);
return(cur);
}
/**
* xmlFreeDoc:
* @cur: pointer to the document
*
* Free a document including all children and associated DTDs.
*/
void
xmlFreeDoc(xmlDocPtr cur) {
xmlDtdPtr extSubset, intSubset;
xmlDictPtr dict = NULL;
if (cur == NULL) {
return;
}
dict = cur->dict;
if ((__xmlRegisterCallbacks) && (xmlDeregisterNodeDefaultValue))
xmlDeregisterNodeDefaultValue((xmlNodePtr)cur);
/*
* 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;
extSubset = cur->extSubset;
intSubset = cur->intSubset;
if (intSubset == extSubset)
extSubset = NULL;
if (extSubset != NULL) {
xmlUnlinkNodeInternal((xmlNodePtr) cur->extSubset);
cur->extSubset = NULL;
xmlFreeDtd(extSubset);
}
if (intSubset != NULL) {
xmlUnlinkNodeInternal((xmlNodePtr) cur->intSubset);
cur->intSubset = NULL;
xmlFreeDtd(intSubset);
}
if (cur->children != NULL) xmlFreeNodeList(cur->children);
if (cur->oldNs != NULL) xmlFreeNsList(cur->oldNs);
DICT_FREE(cur->version)
DICT_FREE(cur->name)
DICT_FREE(cur->encoding)
DICT_FREE(cur->URL)
xmlFree(cur);
if (dict) xmlDictFree(dict);
}
/**
* xmlNodeParseContentInternal:
* @doc: a document (optional)
* @parent: an element or attribute (optional)
* @value: an attribute value
* @len: maximum length of the attribute value
* @listPtr: pointer to the resulting node list (optional)
*
* See xmlNodeParseContent.
*
* Returns 0 on success, -1 if a memory allocation failed.
*/
static int
xmlNodeParseContentInternal(const xmlDoc *doc, xmlNodePtr parent,
const xmlChar *value, int len,
xmlNodePtr *listPtr) {
xmlNodePtr head = NULL, last = NULL;
xmlNodePtr node;
xmlChar *val = NULL;
const xmlChar *cur;
const xmlChar *q;
xmlEntityPtr ent;
xmlBufPtr buf;
int remaining;
if (listPtr != NULL)
*listPtr = NULL;
if (len < 0)
remaining = INT_MAX;
else
remaining = len;
if (value == NULL)
goto done;
cur = value;
buf = xmlBufCreateSize(64);
if (buf == NULL)
return(-1);
xmlBufSetAllocationScheme(buf, XML_BUFFER_ALLOC_DOUBLEIT);
q = cur;
while ((remaining > 0) && (*cur != 0)) {
if (cur[0] == '&') {
int charval = 0;
/*
* Save the current text.
*/
if (cur != q) {
if (xmlBufAdd(buf, q, cur - q))
goto out;
q = cur;
}
if ((remaining > 2) && (cur[1] == '#') && (cur[2] == 'x')) {
int tmp = 0;
cur += 3;
remaining -= 3;
while ((remaining > 0) && ((tmp = *cur) != ';')) {
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 {
charval = 0;
break;
}
if (charval > 0x110000)
charval = 0x110000;
cur++;
remaining--;
}
if (tmp == ';') {
cur++;
remaining--;
}
q = cur;
} else if ((remaining > 1) && (cur[1] == '#')) {
int tmp = 0;
cur += 2;
remaining -= 2;
while ((remaining > 0) && ((tmp = *cur) != ';')) {
if ((tmp >= '0') && (tmp <= '9'))
charval = charval * 10 + (tmp - '0');
else {
charval = 0;
break;
}
if (charval > 0x110000)
charval = 0x110000;
cur++;
remaining--;
}
if (tmp == ';') {
cur++;
remaining--;
}
q = cur;
} else {
/*
* Read the entity string
*/
cur++;
remaining--;
q = cur;
while ((remaining > 0) && (*cur != 0) && (*cur != ';')) {
cur++;
remaining--;
}
if ((remaining <= 0) || (*cur == 0))
break;
if (cur != q) {
val = xmlStrndup(q, cur - q);
if (val == NULL)
goto out;
ent = xmlGetDocEntity(doc, val);
if ((ent != NULL) &&
(ent->etype == XML_INTERNAL_PREDEFINED_ENTITY)) {
/*
* Predefined entities don't generate nodes
*/
if (xmlBufCat(buf, ent->content))
goto out;
} else {
/*
* Flush buffer so far
*/
if (!xmlBufIsEmpty(buf)) {
node = xmlNewDocText(doc, NULL);
if (node == NULL)
goto out;
node->content = xmlBufDetach(buf);
node->parent = parent;
if (last == NULL) {
head = node;
} else {
last->next = node;
node->prev = last;
}
last = node;
}
if ((ent != NULL) &&
((ent->flags & XML_ENT_PARSED) == 0) &&
((ent->flags & XML_ENT_EXPANDING) == 0) &&
(ent->content != NULL)) {
int res;
ent->flags |= XML_ENT_EXPANDING;
res = xmlNodeParseContentInternal(doc,
(xmlNodePtr) ent, ent->content, -1, NULL);
ent->flags &= ~XML_ENT_EXPANDING;
if (res < 0)
goto out;
ent->flags |= XML_ENT_PARSED;
}
/*
* Create a new REFERENCE_REF node
*/
node = xmlNewCharRef((xmlDocPtr) doc, val);
if (node == NULL)
goto out;
node->parent = parent;
node->last = (xmlNodePtr) ent;
if (ent != NULL) {
node->children = (xmlNodePtr) ent;
node->content = ent->content;
}
if (last == NULL) {
head = node;
} else {
last->next = node;
node->prev = last;
}
last = node;
}
xmlFree(val);
val = NULL;
}
cur++;
remaining--;
q = cur;
}
if (charval != 0) {
xmlChar buffer[10];
int l;
if (charval >= 0x110000)
charval = 0xFFFD; /* replacement character */
l = xmlCopyCharMultiByte(buffer, charval);
buffer[l] = 0;
if (xmlBufCat(buf, buffer))
goto out;
}
} else {
cur++;
remaining--;
}
}
if (cur != q) {
/*
* Handle the last piece of text.
*/
if (xmlBufAdd(buf, q, cur - q))
goto out;
}
if (!xmlBufIsEmpty(buf)) {
node = xmlNewDocText(doc, NULL);
if (node == NULL)
goto out;
node->parent = parent;
node->content = xmlBufDetach(buf);
if (last == NULL) {
head = node;
} else {
last->next = node;
node->prev = last;
}
last = node;
} else if (head == NULL) {
head = xmlNewDocText(doc, BAD_CAST "");
if (head == NULL)
goto out;
head->parent = parent;
last = head;
}
xmlBufFree(buf);
done:
if (parent != NULL) {
if (parent->children != NULL)
xmlFreeNodeList(parent->children);
parent->children = head;
parent->last = last;
}
if (listPtr != NULL)
*listPtr = head;
return(0);
out:
xmlBufFree(buf);
if (val != NULL)
xmlFree(val);
if (head != NULL)
xmlFreeNodeList(head);
return(-1);
}
/**
* xmlNodeParseContent:
* @node: an element or attribute
* @content: text content with XML references
* @len: maximum length of content
*
* Parse content and replace the node's children with the resulting
* node list.
*
* @content is expected to be a valid XML attribute value possibly
* containing character and entity references. Syntax errors
* and references to undeclared entities are ignored silently.
* Only references are handled, nested elements, comments or PIs are
* not.
*
* Returns 0 on success, -1 if a memory allocation failed.
*/
int
xmlNodeParseContent(xmlNodePtr node, const xmlChar *content, int len) {
return(xmlNodeParseContentInternal(node->doc, node, content, len, NULL));
}
/**
* xmlStringLenGetNodeList:
* @doc: a document (optional)
* @value: an attribute value
* @len: maximum length of the attribute value
*
* DEPRECATED: Use xmlNodeSetContentLen.
*
* See xmlStringGetNodeList.
*
* Returns a pointer to the first child or NULL if a memory
* allocation failed.
*/
xmlNodePtr
xmlStringLenGetNodeList(const xmlDoc *doc, const xmlChar *value, int len) {
xmlNodePtr ret;
xmlNodeParseContentInternal(doc, NULL, value, len, &ret);
return(ret);
}
/**
* xmlStringGetNodeList:
* @doc: a document (optional)
* @value: an attribute value
*
* DEPRECATED: Use xmlNodeSetContent.
*
* Parse an attribute value and build a node list containing only
* text and entity reference nodes. The resulting nodes will be
* associated with the document if provided. The document is also
* used to look up entities.
*
* The input is not validated. Syntax errors or references to
* undeclared entities will be ignored silently with unspecified
* results.
*
* Returns a pointer to the first child or NULL if a memory
* allocation failed.
*/
xmlNodePtr
xmlStringGetNodeList(const xmlDoc *doc, const xmlChar *value) {
xmlNodePtr ret;
xmlNodeParseContentInternal(doc, NULL, value, -1, &ret);
return(ret);
}
/**
* xmlNodeListGetStringInternal:
* @doc: a document (optional)
* @node: a node list
* @escMode: escape mode (0 = no, 1 = elem, 2 = attr, 3 = raw)
*
* Returns a pointer to the string.
*/
static xmlChar *
xmlNodeListGetStringInternal(xmlDocPtr doc, const xmlNode *node, int escMode) {
xmlBufPtr buf;
xmlChar *ret;
if (node == NULL)
return(xmlStrdup(BAD_CAST ""));
if ((escMode == 0) &&
((node->type == XML_TEXT_NODE) ||
(node->type == XML_CDATA_SECTION_NODE)) &&
(node->next == NULL)) {
if (node->content == NULL)
return(xmlStrdup(BAD_CAST ""));
return(xmlStrdup(node->content));
}
buf = xmlBufCreateSize(64);
if (buf == NULL)
return(NULL);
while (node != NULL) {
if ((node->type == XML_TEXT_NODE) ||
(node->type == XML_CDATA_SECTION_NODE)) {
if (node->content != NULL) {
if (escMode == 0) {
xmlBufCat(buf, node->content);
} else {
xmlChar *encoded;
if (escMode == 1)
encoded = xmlEncodeEntitiesReentrant(doc,
node->content);
else if (escMode == 2)
encoded = xmlEncodeAttributeEntities(doc,
node->content);
else
encoded = xmlEncodeSpecialChars(doc, node->content);
if (encoded == NULL)
goto error;
xmlBufCat(buf, encoded);
xmlFree(encoded);
}
}
} else if (node->type == XML_ENTITY_REF_NODE) {
if (escMode == 0) {
xmlBufGetNodeContent(buf, node);
} else {
xmlBufAdd(buf, BAD_CAST "&", 1);
xmlBufCat(buf, node->name);
xmlBufAdd(buf, BAD_CAST ";", 1);
}
}
node = node->next;
}
ret = xmlBufDetach(buf);
xmlBufFree(buf);
return(ret);
error:
xmlBufFree(buf);
return(NULL);
}
/**
* xmlNodeListGetString:
* @doc: a document (optional)
* @list: a node list of attribute children (optional)
* @inLine: whether entity references are substituted
*
* Serializes attribute children (text and entity reference nodes)
* into a string. An empty list produces an empty string.
*
* If @inLine is true, entity references will be substituted.
* Otherwise, entity references will be kept and special characters
* like '&' as well as non-ASCII chars will be escaped. See
* xmlNodeListGetRawString for an alternative option.
*
* Returns a string or NULL if a memory allocation failed.
*/
xmlChar *
xmlNodeListGetString(xmlDocPtr doc, const xmlNode *list, int inLine)
{
int escMode;
if (inLine) {
escMode = 0;
} else {
if ((list != NULL) &&
(list->parent != NULL) &&
(list->parent->type == XML_ATTRIBUTE_NODE))
escMode = 2;
else
escMode = 1;
}
return(xmlNodeListGetStringInternal(doc, list, escMode));
}
#ifdef LIBXML_TREE_ENABLED
/**
* xmlNodeListGetRawString:
* @doc: a document (optional)
* @list: a node list of attribute children (optional)
* @inLine: whether entity references are substituted
*
* Serializes attribute children (text and entity reference nodes)
* into a string. An empty list produces an empty string.
*
* If @inLine is true, entity references will be substituted.
* Otherwise, entity references will be kept and special characters
* like '&' will be escaped.
*
* Returns a string or NULL if a memory allocation failed.
*/
xmlChar *
xmlNodeListGetRawString(const xmlDoc *doc, const xmlNode *list, int inLine)
{
int escMode = inLine ? 0 : 3;
return(xmlNodeListGetStringInternal((xmlDocPtr) doc, list, escMode));
}
#endif /* LIBXML_TREE_ENABLED */
static xmlAttrPtr
xmlNewPropInternal(xmlNodePtr node, xmlNsPtr ns,
const xmlChar * name, const xmlChar * value,
int eatname)
{
xmlAttrPtr cur;
xmlDocPtr doc = NULL;
if ((node != NULL) && (node->type != XML_ELEMENT_NODE)) {
if ((eatname == 1) &&
((node->doc == NULL) || (node->doc->dict == NULL) ||
(!(xmlDictOwns(node->doc->dict, name)))))
xmlFree((xmlChar *) name);
return (NULL);
}
/*
* Allocate a new property and fill the fields.
*/
cur = (xmlAttrPtr) xmlMalloc(sizeof(xmlAttr));
if (cur == NULL) {
if ((eatname == 1) &&
((node == NULL) || (node->doc == NULL) ||
(node->doc->dict == NULL) ||
(!(xmlDictOwns(node->doc->dict, name)))))
xmlFree((xmlChar *) name);
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->ns = ns;
if (eatname == 0) {
if ((doc != NULL) && (doc->dict != NULL))
cur->name = (xmlChar *) xmlDictLookup(doc->dict, name, -1);
else
cur->name = xmlStrdup(name);
if (cur->name == NULL)
goto error;
} else
cur->name = name;
if (value != NULL) {
xmlNodePtr tmp;
cur->children = xmlNewDocText(doc, value);
if (cur->children == NULL)
goto error;
cur->last = NULL;
tmp = cur->children;
while (tmp != NULL) {
tmp->parent = (xmlNodePtr) cur;
if (tmp->next == NULL)
cur->last = tmp;
tmp = tmp->next;
}
if (doc != NULL) {
int res = xmlIsID(doc, node, cur);
if (res < 0)
goto error;
if ((res == 1) && (xmlAddIDSafe(cur, value) < 0))
goto error;
}
}
/*
* Add it at the end to preserve parsing order ...
*/
if (node != NULL) {
if (node->properties == NULL) {
node->properties = cur;
} else {
xmlAttrPtr prev = node->properties;
while (prev->next != NULL)
prev = prev->next;
prev->next = cur;
cur->prev = prev;
}
}
if ((__xmlRegisterCallbacks) && (xmlRegisterNodeDefaultValue))
xmlRegisterNodeDefaultValue((xmlNodePtr) cur);
return (cur);
error:
xmlFreeProp(cur);
return(NULL);
}
#if defined(LIBXML_TREE_ENABLED) || defined(LIBXML_HTML_ENABLED) || \
defined(LIBXML_SCHEMAS_ENABLED)
/**
* xmlNewProp:
* @node: the parent node (optional)
* @name: the name of the attribute
* @value: the value of the attribute (optional)
*
* Create an attribute node.
*
* If provided, @value should be a raw, unescaped string.
*
* If @node is provided, the created attribute will be appended without
* checking for duplicate names. It is an error if @node is not an
* element.
*
* Returns a pointer to the attribute or NULL if arguments are invalid
* or a memory allocation failed.
*/
xmlAttrPtr
xmlNewProp(xmlNodePtr node, const xmlChar *name, const xmlChar *value) {
if (name == NULL) {
return(NULL);
}
return xmlNewPropInternal(node, NULL, name, value, 0);
}
#endif /* LIBXML_TREE_ENABLED */
/**
* xmlNewNsProp:
* @node: the parent node (optional)
* @ns: the namespace (optional)
* @name: the local name of the attribute
* @value: the value of the attribute (optional)
*
* Create an attribute object.
*
* If provided, @value should be a raw, unescaped string.
*
* If @node is provided, the created attribute will be appended without
* checking for duplicate names. It is an error if @node is not an
* element.
*
* Returns a pointer to the attribute or NULL if arguments are invalid
* or a memory allocation failed.
*/
xmlAttrPtr
xmlNewNsProp(xmlNodePtr node, xmlNsPtr ns, const xmlChar *name,
const xmlChar *value) {
if (name == NULL) {
return(NULL);
}
return xmlNewPropInternal(node, ns, name, value, 0);
}
/**
* xmlNewNsPropEatName:
* @node: the parent node (optional)
* @ns: the namespace (optional)
* @name: the local name of the attribute
* @value: the value of the attribute (optional)
*
* Like xmlNewNsProp, but the @name string will be used directly
* without making a copy. Takes ownership of @name which will also
* be freed on error.
*
* Returns a pointer to the attribute or NULL if arguments are invalid
* or a memory allocation failed.
*/
xmlAttrPtr
xmlNewNsPropEatName(xmlNodePtr node, xmlNsPtr ns, xmlChar *name,
const xmlChar *value) {
if (name == NULL) {
return(NULL);
}
return xmlNewPropInternal(node, ns, name, value, 1);
}
/**
* xmlNewDocProp:
* @doc: the target document (optional)
* @name: the name of the attribute
* @value: attribute value with XML references (optional)
*
* Create an attribute object.
*
* If provided, @value is expected to be a valid XML attribute value
* possibly containing character and entity references. Syntax errors
* and references to undeclared entities are ignored silently.
* If you want to pass a raw string, see xmlNewProp.
*
* Returns a pointer to the attribute or NULL if arguments are invalid
* or a memory allocation failed.
*/
xmlAttrPtr
xmlNewDocProp(xmlDocPtr doc, const xmlChar *name, const xmlChar *value) {
xmlAttrPtr cur;
if (name == NULL) {
return(NULL);
}
/*
* Allocate a new property and fill the fields.
*/
cur = (xmlAttrPtr) xmlMalloc(sizeof(xmlAttr));
if (cur == NULL)
return(NULL);
memset(cur, 0, sizeof(xmlAttr));
cur->type = XML_ATTRIBUTE_NODE;
if ((doc != NULL) && (doc->dict != NULL))
cur->name = xmlDictLookup(doc->dict, name, -1);
else
cur->name = xmlStrdup(name);
if (cur->name == NULL)
goto error;
cur->doc = doc;
if (value != NULL) {
if (xmlNodeParseContent((xmlNodePtr) cur, value, -1) < 0)
goto error;
}
if ((__xmlRegisterCallbacks) && (xmlRegisterNodeDefaultValue))
xmlRegisterNodeDefaultValue((xmlNodePtr)cur);
return(cur);
error:
xmlFreeProp(cur);
return(NULL);
}
/**
* xmlFreePropList:
* @cur: the first attribute in the list
*
* Free an attribute list including all children.
*/
void
xmlFreePropList(xmlAttrPtr cur) {
xmlAttrPtr next;
if (cur == NULL) return;
while (cur != NULL) {
next = cur->next;
xmlFreeProp(cur);
cur = next;
}
}
/**
* xmlFreeProp:
* @cur: an attribute
*
* Free an attribute including all children.
*/
void
xmlFreeProp(xmlAttrPtr cur) {
xmlDictPtr dict = NULL;
if (cur == NULL) return;
if (cur->doc != NULL) dict = cur->doc->dict;
if ((__xmlRegisterCallbacks) && (xmlDeregisterNodeDefaultValue))
xmlDeregisterNodeDefaultValue((xmlNodePtr)cur);
/* Check for ID removal -> leading to invalid references ! */
if ((cur->doc != NULL) && (cur->atype == XML_ATTRIBUTE_ID)) {
xmlRemoveID(cur->doc, cur);
}
if (cur->children != NULL) xmlFreeNodeList(cur->children);
DICT_FREE(cur->name)
xmlFree(cur);
}
/**
* xmlRemoveProp:
* @cur: an attribute
*
* Unlink and free an attribute including all children.
*
* Note this doesn't work for namespace declarations.
*
* The attribute must have a non-NULL parent pointer.
*
* Returns 0 on success or -1 if the attribute was not found or
* arguments are invalid.
*/
int
xmlRemoveProp(xmlAttrPtr cur) {
xmlAttrPtr tmp;
if (cur == NULL) {
return(-1);
}
if (cur->parent == NULL) {
return(-1);
}
tmp = cur->parent->properties;
if (tmp == cur) {
cur->parent->properties = cur->next;
if (cur->next != NULL)
cur->next->prev = NULL;
xmlFreeProp(cur);
return(0);
}
while (tmp != NULL) {
if (tmp->next == cur) {
tmp->next = cur->next;
if (tmp->next != NULL)
tmp->next->prev = tmp;
xmlFreeProp(cur);
return(0);
}
tmp = tmp->next;
}
return(-1);
}
/**
* xmlNewDocPI:
* @doc: the target document (optional)
* @name: the processing instruction target
* @content: the PI content (optional)
*
* Create a processing instruction object.
*
* Returns a pointer to the new node object or NULL if arguments are
* invalid or a memory allocation failed.
*/
xmlNodePtr
xmlNewDocPI(xmlDocPtr doc, const xmlChar *name, const xmlChar *content) {
xmlNodePtr cur;
if (name == NULL) {
return(NULL);
}
/*
* Allocate a new node and fill the fields.
*/
cur = (xmlNodePtr) xmlMalloc(sizeof(xmlNode));
if (cur == NULL)
return(NULL);
memset(cur, 0, sizeof(xmlNode));
cur->type = XML_PI_NODE;
cur->doc = doc;
if ((doc != NULL) && (doc->dict != NULL))
cur->name = xmlDictLookup(doc->dict, name, -1);
else
cur->name = xmlStrdup(name);
if (cur->name == NULL)
goto error;
if (content != NULL) {
cur->content = xmlStrdup(content);
if (cur->content == NULL)
goto error;
}
if ((__xmlRegisterCallbacks) && (xmlRegisterNodeDefaultValue))
xmlRegisterNodeDefaultValue((xmlNodePtr)cur);
return(cur);
error:
xmlFreeNode(cur);
return(NULL);
}
/**
* xmlNewPI:
* @name: the processing instruction target
* @content: the PI content (optional)
*
* Create a processing instruction node.
*
* Use of this function is DISCOURAGED in favor of xmlNewDocPI.
*
* Returns a pointer to the new node object or NULL if arguments are
* invalid or a memory allocation failed.
*/
xmlNodePtr
xmlNewPI(const xmlChar *name, const xmlChar *content) {
return(xmlNewDocPI(NULL, name, content));
}
/**
* xmlNewNode:
* @ns: namespace (optional)
* @name: the node name
*
* Create an element node.
*
* Use of this function is DISCOURAGED in favor of xmlNewDocNode.
*
* Returns a pointer to the new node object or NULL if arguments are
* invalid or a memory allocation failed.
*/
xmlNodePtr
xmlNewNode(xmlNsPtr ns, const xmlChar *name) {
return(xmlNewDocNode(NULL, ns, name, NULL));
}
/**
* xmlNewNodeEatName:
* @ns: namespace (optional)
* @name: the node name
*
* Create an element node.
*
* Use of this function is DISCOURAGED in favor of xmlNewDocNodeEatName.
*
* Like xmlNewNode, but the @name string will be used directly
* without making a copy. Takes ownership of @name which will also
* be freed on error.
*
* Returns a pointer to the new node object or NULL if arguments are
* invalid or a memory allocation failed.
*/
xmlNodePtr
xmlNewNodeEatName(xmlNsPtr ns, xmlChar *name) {
return(xmlNewDocNodeEatName(NULL, ns, name, NULL));
}
static xmlNodePtr
xmlNewElem(xmlDocPtr doc, xmlNsPtr ns, const xmlChar *name,
const xmlChar *content) {
xmlNodePtr cur;
cur = (xmlNodePtr) xmlMalloc(sizeof(xmlNode));
if (cur == NULL)
return(NULL);
memset(cur, 0, sizeof(xmlNode));
cur->type = XML_ELEMENT_NODE;
cur->doc = doc;
cur->name = name;
cur->ns = ns;
if (content != NULL) {
if (xmlNodeParseContent(cur, content, -1) < 0) {
/* Don't free name on error */
xmlFree(cur);
return(NULL);
}
}
if ((__xmlRegisterCallbacks) && (xmlRegisterNodeDefaultValue))
xmlRegisterNodeDefaultValue((xmlNodePtr)cur);
return(cur);
}
/**
* xmlNewDocNode:
* @doc: the target document
* @ns: namespace (optional)
* @name: the node name
* @content: text content with XML references (optional)
*
* Create an element node.
*
* If provided, @content is expected to be a valid XML attribute value
* possibly containing character and entity references. Syntax errors
* and references to undeclared entities are ignored silently.
* Only references are handled, nested elements, comments or PIs are
* not. See xmlNewDocRawNode for an alternative.
*
* General notes on object creation:
*
* Each node and all its children are associated with the same
* document. The document should be provided when creating nodes to
* avoid a performance penalty when adding the node to a document
* tree. Note that a document only owns nodes reachable from the root
* node. Unlinked subtrees must be freed manually.
*
* Returns a pointer to the new node object or NULL if arguments are
* invalid or a memory allocation failed.
*/
xmlNodePtr
xmlNewDocNode(xmlDocPtr doc, xmlNsPtr ns,
const xmlChar *name, const xmlChar *content) {
xmlNodePtr cur;
xmlChar *copy;
if (name == NULL)
return(NULL);
if ((doc != NULL) && (doc->dict != NULL)) {
const xmlChar *dictName = xmlDictLookup(doc->dict, name, -1);
if (dictName == NULL)
return(NULL);
return(xmlNewElem(doc, ns, dictName, content));
}
copy = xmlStrdup(name);
if (copy == NULL)
return(NULL);
cur = xmlNewElem(doc, ns, copy, content);
if (cur == NULL) {
xmlFree(copy);
return(NULL);
}
return(cur);
}
/**
* xmlNewDocNodeEatName:
* xmlNewDocNode:
* @doc: the target document
* @ns: namespace (optional)
* @name: the node name
* @content: text content with XML references (optional)
*
* Create an element node.
*
* Like xmlNewDocNode, but the @name string will be used directly
* without making a copy. Takes ownership of @name which will also
* be freed on error.
*
* Returns a pointer to the new node object or NULL if arguments are
* invalid or a memory allocation failed.
*/
xmlNodePtr
xmlNewDocNodeEatName(xmlDocPtr doc, xmlNsPtr ns,
xmlChar *name, const xmlChar *content) {
xmlNodePtr cur;
if (name == NULL)
return(NULL);
cur = xmlNewElem(doc, ns, name, content);
if (cur == NULL) {
/* if name doesn't come from the doc dictionary free it here */
if ((doc == NULL) ||
(doc->dict == NULL) ||
(!xmlDictOwns(doc->dict, name)))
xmlFree(name);
return(NULL);
}
return(cur);
}
#ifdef LIBXML_TREE_ENABLED
/**
* xmlNewDocRawNode:
* @doc: the target document
* @ns: namespace (optional)
* @name: the node name
* @content: raw text content (optional)
*
* Create an element node.
*
* If provided, @value should be a raw, unescaped string.
*
* Returns a pointer to the new node object or NULL if arguments are
* invalid or a memory allocation failed.
*/
xmlNodePtr
xmlNewDocRawNode(xmlDocPtr doc, xmlNsPtr ns,
const xmlChar *name, const xmlChar *content) {
xmlNodePtr cur;
cur = xmlNewDocNode(doc, ns, name, NULL);
if (cur != NULL) {
cur->doc = doc;
if (content != NULL) {
xmlNodePtr text;
text = xmlNewDocText(doc, content);
if (text == NULL) {
xmlFreeNode(cur);
return(NULL);
}
cur->children = text;
cur->last = text;
text->parent = cur;
}
}
return(cur);
}
/**
* xmlNewDocFragment:
* @doc: the target document (optional)
*
* Create a document fragment node.
*
* Returns a pointer to the new node object or NULL if a memory
* allocation failed.
*/
xmlNodePtr
xmlNewDocFragment(xmlDocPtr doc) {
xmlNodePtr cur;
/*
* Allocate a new DocumentFragment node and fill the fields.
*/
cur = (xmlNodePtr) xmlMalloc(sizeof(xmlNode));
if (cur == NULL)
return(NULL);
memset(cur, 0, sizeof(xmlNode));
cur->type = XML_DOCUMENT_FRAG_NODE;
cur->doc = doc;
if ((__xmlRegisterCallbacks) && (xmlRegisterNodeDefaultValue))
xmlRegisterNodeDefaultValue(cur);
return(cur);
}
#endif /* LIBXML_TREE_ENABLED */
/**
* xmlNewText:
* @content: raw text content (optional)
*
* Create a text node.
*
* Use of this function is DISCOURAGED in favor of xmlNewDocText.
*
* Returns a pointer to the new node object or NULL if a memory
* allocation failed.
*/
xmlNodePtr
xmlNewText(const xmlChar *content) {
xmlNodePtr cur;
/*
* Allocate a new node and fill the fields.
*/
cur = (xmlNodePtr) xmlMalloc(sizeof(xmlNode));
if (cur == NULL)
return(NULL);
memset(cur, 0, sizeof(xmlNode));
cur->type = XML_TEXT_NODE;
cur->name = xmlStringText;
if (content != NULL) {
cur->content = xmlStrdup(content);
if (cur->content == NULL)
goto error;
}
if ((__xmlRegisterCallbacks) && (xmlRegisterNodeDefaultValue))
xmlRegisterNodeDefaultValue(cur);
return(cur);
error:
xmlFreeNode(cur);
return(NULL);
}
#ifdef LIBXML_TREE_ENABLED
/**
* xmlNewTextChild:
* @parent: the parent node
* @ns: a namespace (optional)
* @name: the name of the child
* @content: raw text content of the child (optional)
*
* Create a new child element and append it to a parent element.
*
* If @ns is NULL, the newly created element inherits the namespace
* of the parent.
*
* If @content is provided, a text node will be added to the child
* element, see xmlNewDocRawNode.
*
* Returns a pointer to the new node object or NULL if arguments
* are invalid or a memory allocation failed.
*/
xmlNodePtr
xmlNewTextChild(xmlNodePtr parent, xmlNsPtr ns,
const xmlChar *name, const xmlChar *content) {
xmlNodePtr cur, prev;
if ((parent == NULL) || (name == NULL))
return(NULL);
switch (parent->type) {
case XML_DOCUMENT_NODE:
case XML_HTML_DOCUMENT_NODE:
case XML_DOCUMENT_FRAG_NODE:
break;
case XML_ELEMENT_NODE:
if (ns == NULL)
ns = parent->ns;
break;
default:
return(NULL);
}
cur = xmlNewDocRawNode(parent->doc, ns, name, content);
if (cur == NULL)
return(NULL);
/*
* add the new element at the end of the children list.
*/
cur->parent = parent;
if (parent->children == NULL) {
parent->children = cur;
parent->last = cur;
} else {
prev = parent->last;
prev->next = cur;
cur->prev = prev;
parent->last = cur;
}
return(cur);
}
#endif /* LIBXML_TREE_ENABLED */
/**
* xmlNewCharRef:
* @doc: the target document (optional)
* @name: the entity name
*
* This function is MISNAMED. It doesn't create a character reference
* but an entity reference.
*
* Create an empty entity reference node. This function doesn't attempt
* to look up the entity in @doc.
*
* Entity names like '&entity;' are handled as well.
*
* Returns a pointer to the new node object or NULL if arguments are
* invalid or a memory allocation failed.
*/
xmlNodePtr
xmlNewCharRef(xmlDocPtr doc, const xmlChar *name) {
xmlNodePtr cur;
if (name == NULL)
return(NULL);
/*
* Allocate a new node and fill the fields.
*/
cur = (xmlNodePtr) xmlMalloc(sizeof(xmlNode));
if (cur == NULL)
return(NULL);
memset(cur, 0, sizeof(xmlNode));
cur->type = XML_ENTITY_REF_NODE;
cur->doc = doc;
if (name[0] == '&') {
int len;
name++;
len = xmlStrlen(name);
if (name[len - 1] == ';')
cur->name = xmlStrndup(name, len - 1);
else
cur->name = xmlStrndup(name, len);
} else
cur->name = xmlStrdup(name);
if (cur->name == NULL)
goto error;
if ((__xmlRegisterCallbacks) && (xmlRegisterNodeDefaultValue))
xmlRegisterNodeDefaultValue(cur);
return(cur);
error:
xmlFreeNode(cur);
return(NULL);
}
/**
* xmlNewReference:
* @doc: the target document (optional)
* @name: the entity name
*
* Create a new entity reference node, linking the result with the
* entity in @doc if found.
*
* Entity names like '&entity;' are handled as well.
*
* Returns a pointer to the new node object or NULL if arguments are
* invalid or a memory allocation failed.
*/
xmlNodePtr
xmlNewReference(const xmlDoc *doc, const xmlChar *name) {
xmlNodePtr cur;
xmlEntityPtr ent;
if (name == NULL)
return(NULL);
/*
* Allocate a new node and fill the fields.
*/
cur = (xmlNodePtr) xmlMalloc(sizeof(xmlNode));
if (cur == NULL)
return(NULL);
memset(cur, 0, sizeof(xmlNode));
cur->type = XML_ENTITY_REF_NODE;
cur->doc = (xmlDoc *)doc;
if (name[0] == '&') {
int len;
name++;
len = xmlStrlen(name);
if (name[len - 1] == ';')
cur->name = xmlStrndup(name, len - 1);
else
cur->name = xmlStrndup(name, len);
} else
cur->name = xmlStrdup(name);
if (cur->name == NULL)
goto error;
ent = xmlGetDocEntity(doc, cur->name);
if (ent != NULL) {
cur->content = ent->content;
/*
* The parent pointer in entity is a DTD pointer and thus is NOT
* updated. Not sure if this is 100% correct.
* -George
*/
cur->children = (xmlNodePtr) ent;
cur->last = (xmlNodePtr) ent;
}
if ((__xmlRegisterCallbacks) && (xmlRegisterNodeDefaultValue))
xmlRegisterNodeDefaultValue(cur);
return(cur);
error:
xmlFreeNode(cur);
return(NULL);
}
/**
* xmlNewDocText:
* @doc: the target document
* @content: raw text content (optional)
*
* Create a new text node.
*
* Returns a pointer to the new node object or NULL if a memory
* allocation failed.
*/
xmlNodePtr
xmlNewDocText(const xmlDoc *doc, const xmlChar *content) {
xmlNodePtr cur;
cur = xmlNewText(content);
if (cur != NULL) cur->doc = (xmlDoc *)doc;
return(cur);
}
/**
* xmlNewTextLen:
* @content: raw text content (optional)
* @len: size of text content
*
* Use of this function is DISCOURAGED in favor of xmlNewDocTextLen.
*
* Returns a pointer to the new node object or NULL if a memory
* allocation failed.
*/
xmlNodePtr
xmlNewTextLen(const xmlChar *content, int len) {
xmlNodePtr cur;
/*
* Allocate a new node and fill the fields.
*/
cur = (xmlNodePtr) xmlMalloc(sizeof(xmlNode));
if (cur == NULL)
return(NULL);
memset(cur, 0, sizeof(xmlNode));
cur->type = XML_TEXT_NODE;
cur->name = xmlStringText;
if (content != NULL) {
cur->content = xmlStrndup(content, len);
if (cur->content == NULL) {
xmlFreeNode(cur);
return(NULL);
}
}
if ((__xmlRegisterCallbacks) && (xmlRegisterNodeDefaultValue))
xmlRegisterNodeDefaultValue(cur);
return(cur);
}
/**
* xmlNewDocTextLen:
* @doc: the target document
* @content: raw text content (optional)
* @len: size of text content
*
* Create a new text node.
*
* Returns a pointer to the new node object or NULL if a memory
* allocation failed.
*/
xmlNodePtr
xmlNewDocTextLen(xmlDocPtr doc, const xmlChar *content, int len) {
xmlNodePtr cur;
cur = xmlNewTextLen(content, len);
if (cur != NULL) cur->doc = doc;
return(cur);
}
/**
* xmlNewComment:
* @content: the comment content (optional)
*
* Use of this function is DISCOURAGED in favor of xmlNewDocComment.
*
* Create a comment node.
*
* Returns a pointer to the new node object or NULL if a memory
* allocation failed.
*/
xmlNodePtr
xmlNewComment(const xmlChar *content) {
xmlNodePtr cur;
/*
* Allocate a new node and fill the fields.
*/
cur = (xmlNodePtr) xmlMalloc(sizeof(xmlNode));
if (cur == NULL)
return(NULL);
memset(cur, 0, sizeof(xmlNode));
cur->type = XML_COMMENT_NODE;
cur->name = xmlStringComment;
if (content != NULL) {
cur->content = xmlStrdup(content);
if (cur->content == NULL)
goto error;
}
if ((__xmlRegisterCallbacks) && (xmlRegisterNodeDefaultValue))
xmlRegisterNodeDefaultValue(cur);
return(cur);
error:
xmlFreeNode(cur);
return(NULL);
}
/**
* xmlNewCDataBlock:
* @doc: the target document (optional)
* @content: raw text content (optional)
* @len: size of text content
*
* Create a CDATA section node.
*
* Returns a pointer to the new node object or NULL if a memory
* allocation failed.
*/
xmlNodePtr
xmlNewCDataBlock(xmlDocPtr doc, const xmlChar *content, int len) {
xmlNodePtr cur;
/*
* Allocate a new node and fill the fields.
*/
cur = (xmlNodePtr) xmlMalloc(sizeof(xmlNode));
if (cur == NULL)
return(NULL);
memset(cur, 0, sizeof(xmlNode));
cur->type = XML_CDATA_SECTION_NODE;
cur->doc = doc;
if (content != NULL) {
cur->content = xmlStrndup(content, len);
if (cur->content == NULL) {
xmlFree(cur);
return(NULL);
}
}
if ((__xmlRegisterCallbacks) && (xmlRegisterNodeDefaultValue))
xmlRegisterNodeDefaultValue(cur);
return(cur);
}
/**
* xmlNewDocComment:
* @doc: the document
* @content: the comment content
*
* Create a comment node.
*
* Returns a pointer to the new node object or NULL if a memory
* allocation failed.
*/
xmlNodePtr
xmlNewDocComment(xmlDocPtr doc, const xmlChar *content) {
xmlNodePtr cur;
cur = xmlNewComment(content);
if (cur != NULL) cur->doc = doc;
return(cur);
}
static void
xmlRemoveEntity(xmlEntityPtr ent) {
xmlDocPtr doc = ent->doc;
xmlDtdPtr intSubset, extSubset;
if (doc == NULL)
return;
intSubset = doc->intSubset;
extSubset = doc->extSubset;
if ((ent->etype == XML_INTERNAL_GENERAL_ENTITY) ||
(ent->etype == XML_EXTERNAL_GENERAL_PARSED_ENTITY) ||
(ent->etype == XML_EXTERNAL_GENERAL_UNPARSED_ENTITY)) {
if (intSubset != NULL) {
if (xmlHashLookup(intSubset->entities, ent->name) == ent)
xmlHashRemoveEntry(intSubset->entities, ent->name, NULL);
}
if (extSubset != NULL) {
if (xmlHashLookup(extSubset->entities, ent->name) == ent)
xmlHashRemoveEntry(extSubset->entities, ent->name, NULL);
}
} else if ((ent->etype == XML_INTERNAL_PARAMETER_ENTITY) ||
(ent->etype == XML_EXTERNAL_PARAMETER_ENTITY)) {
if (intSubset != NULL) {
if (xmlHashLookup(intSubset->pentities, ent->name) == ent)
xmlHashRemoveEntry(intSubset->entities, ent->name, NULL);
}
if (extSubset != NULL) {
if (xmlHashLookup(extSubset->pentities, ent->name) == ent)
xmlHashRemoveEntry(extSubset->entities, ent->name, NULL);
}
}
}
static int
xmlNodeSetDoc(xmlNodePtr node, xmlDocPtr doc) {
xmlDocPtr oldDoc;
xmlDictPtr oldDict, newDict;
int ret = 0;
/*
* Remove name and content from old dictionary
*/
oldDoc = node->doc;
oldDict = oldDoc ? oldDoc->dict : NULL;
newDict = doc ? doc->dict : NULL;
if ((oldDict != NULL) && (oldDict != newDict)) {
if ((node->name != NULL) &&
((node->type == XML_ELEMENT_NODE) ||
(node->type == XML_ATTRIBUTE_NODE) ||
(node->type == XML_PI_NODE) ||
(node->type == XML_ENTITY_REF_NODE)) &&
(xmlDictOwns(oldDict, node->name))) {
if (newDict)
node->name = xmlDictLookup(newDict, node->name, -1);
else
node->name = xmlStrdup(node->name);
if (node->name == NULL)
ret = -1;
}
if ((node->content != NULL) &&
((node->type == XML_TEXT_NODE) ||
(node->type == XML_CDATA_SECTION_NODE)) &&
(xmlDictOwns(oldDict, node->content))) {
node->content = xmlStrdup(node->content);
if (node->content == NULL)
ret = -1;
}
}
switch (node->type) {
case XML_ATTRIBUTE_NODE: {
xmlAttrPtr attr = (xmlAttrPtr) node;
/*
* Handle IDs
*
* TODO: ID attributes should also be added to the new
* document, but it's not clear how to handle clashes.
*/
if (attr->atype == XML_ATTRIBUTE_ID)
xmlRemoveID(oldDoc, attr);
break;
}
case XML_ENTITY_REF_NODE:
/*
* Handle entity references
*/
node->children = NULL;
node->last = NULL;
node->content = NULL;
if ((doc != NULL) &&
((doc->intSubset != NULL) || (doc->extSubset != NULL))) {
xmlEntityPtr ent;
/*
* Assign new entity node if available
*/
ent = xmlGetDocEntity(doc, node->name);
if (ent != NULL) {
node->children = (xmlNodePtr) ent;
node->last = (xmlNodePtr) ent;
node->content = ent->content;
}
}
break;
case XML_DTD_NODE:
if (oldDoc != NULL) {
if (oldDoc->intSubset == (xmlDtdPtr) node)
oldDoc->intSubset = NULL;
if (oldDoc->extSubset == (xmlDtdPtr) node)
oldDoc->extSubset = NULL;
}
break;
case XML_ENTITY_DECL:
xmlRemoveEntity((xmlEntityPtr) node);
break;
/*
* TODO:
* - Remove element decls from doc->elements
* - Remove attribtue decls form doc->attributes
*/
default:
break;
}
/*
* Set new document
*/
node->doc = doc;
return(ret);
}
/**
* xmlSetTreeDoc:
* @tree: root of a subtree
* @doc: new document
*
* This is an internal function which shouldn't be used. It is
* invoked by functions like xmlAddChild, xmlAddSibling or
* xmlReplaceNode. @tree must be the root node of an unlinked
* subtree.
*
* Associate all nodes in a tree with a new document.
*
* Also copy strings from the old document's dictionary and
* remove ID attributes from the old ID table.
*
* Returns 0 on success. If a memory allocation fails, returns -1.
* The whole tree will be updated on failure but some strings
* may be lost.
*/
int
xmlSetTreeDoc(xmlNodePtr tree, xmlDocPtr doc) {
int ret = 0;
if ((tree == NULL) || (tree->type == XML_NAMESPACE_DECL))
return(0);
if (tree->doc == doc)
return(0);
if (tree->type == XML_ELEMENT_NODE) {
xmlAttrPtr prop = tree->properties;
while (prop != NULL) {
if (prop->children != NULL) {
if (xmlSetListDoc(prop->children, doc) < 0)
ret = -1;
}
if (xmlNodeSetDoc((xmlNodePtr) prop, doc) < 0)
ret = -1;
prop = prop->next;
}
}
if ((tree->children != NULL) &&
(tree->type != XML_ENTITY_REF_NODE)) {
if (xmlSetListDoc(tree->children, doc) < 0)
ret = -1;
}
if (xmlNodeSetDoc(tree, doc) < 0)
ret = -1;
return(ret);
}
/**
* xmlSetListDoc:
* @list: a node list
* @doc: new document
*
* Associate all subtrees in @list with a new document.
*
* Internal function, see xmlSetTreeDoc.
*
* Returns 0 on success. If a memory allocation fails, returns -1.
* All subtrees will be updated on failure but some strings
* may be lost.
*/
int
xmlSetListDoc(xmlNodePtr list, xmlDocPtr doc) {
xmlNodePtr cur;
int ret = 0;
if ((list == NULL) || (list->type == XML_NAMESPACE_DECL))
return(0);
cur = list;
while (cur != NULL) {
if (cur->doc != doc) {
if (xmlSetTreeDoc(cur, doc) < 0)
ret = -1;
}
cur = cur->next;
}
return(ret);
}
#if defined(LIBXML_TREE_ENABLED) || defined(LIBXML_SCHEMAS_ENABLED)
/**
* xmlNewChild:
* @parent: the parent node
* @ns: a namespace (optional)
* @name: the name of the child
* @content: text content with XML references (optional)
*
* Create a new child element and append it to a parent element.
*
* If @ns is NULL, the newly created element inherits the namespace
* of the parent.
*
* If provided, @content is expected to be a valid XML attribute
* value possibly containing character and entity references. Text
* and entity reference node will be added to the child element,
* see xmlNewDocNode.
*
* Returns a pointer to the new node object or NULL if arguments
* are invalid or a memory allocation failed.
*/
xmlNodePtr
xmlNewChild(xmlNodePtr parent, xmlNsPtr ns,
const xmlChar *name, const xmlChar *content) {
xmlNodePtr cur, prev;
if ((parent == NULL) || (name == NULL))
return(NULL);
switch (parent->type) {
case XML_DOCUMENT_NODE:
case XML_HTML_DOCUMENT_NODE:
case XML_DOCUMENT_FRAG_NODE:
break;
case XML_ELEMENT_NODE:
if (ns == NULL)
ns = parent->ns;
break;
default:
return(NULL);
}
cur = xmlNewDocNode(parent->doc, ns, name, content);
if (cur == NULL)
return(NULL);
/*
* add the new element at the end of the children list.
*/
cur->parent = parent;
if (parent->children == NULL) {
parent->children = cur;
parent->last = cur;
} else {
prev = parent->last;
prev->next = cur;
cur->prev = prev;
parent->last = cur;
}
return(cur);
}
#endif /* LIBXML_TREE_ENABLED */
static void
xmlTextSetContent(xmlNodePtr text, xmlChar *content) {
if ((text->content != NULL) &&
(text->content != (xmlChar *) &text->properties)) {
xmlDocPtr doc = text->doc;
if ((doc == NULL) ||
(doc->dict == NULL) ||
(!xmlDictOwns(doc->dict, text->content)))
xmlFree(text->content);
}
text->content = content;
text->properties = NULL;
}
static int
xmlTextAddContent(xmlNodePtr text, const xmlChar *content, int len) {
xmlChar *merged;
if (content == NULL)
return(0);
merged = xmlStrncatNew(text->content, content, len);
if (merged == NULL)
return(-1);
xmlTextSetContent(text, merged);
return(0);
}
static xmlNodePtr
xmlInsertProp(xmlDocPtr doc, xmlNodePtr cur, xmlNodePtr parent,
xmlNodePtr prev, xmlNodePtr next) {
xmlAttrPtr attr;
if (((prev != NULL) && (prev->type != XML_ATTRIBUTE_NODE)) ||
((next != NULL) && (next->type != XML_ATTRIBUTE_NODE)))
return(NULL);
/* check if an attribute with the same name exists */
attr = xmlGetPropNodeInternal(parent, cur->name,
cur->ns ? cur->ns->href : NULL, 0);
xmlUnlinkNodeInternal(cur);
if (cur->doc != doc) {
if (xmlSetTreeDoc(cur, doc) < 0)
return(NULL);
}
cur->parent = parent;
cur->prev = prev;
cur->next = next;
if (prev == NULL) {
if (parent != NULL)
parent->properties = (xmlAttrPtr) cur;
} else {
prev->next = cur;
}
if (next != NULL) {
next->prev = cur;
}
if ((attr != NULL) && (attr != (xmlAttrPtr) cur)) {
/* different instance, destroy it (attributes must be unique) */
xmlRemoveProp((xmlAttrPtr) attr);
}
return cur;
}
static xmlNodePtr
xmlInsertNode(xmlDocPtr doc, xmlNodePtr cur, xmlNodePtr parent,
xmlNodePtr prev, xmlNodePtr next, int coalesce) {
xmlNodePtr oldParent;
if (cur->type == XML_ATTRIBUTE_NODE)
return xmlInsertProp(doc, cur, parent, prev, next);
/*
* Coalesce text nodes
*/
if ((coalesce) && (cur->type == XML_TEXT_NODE)) {
if ((prev != NULL) && (prev->type == XML_TEXT_NODE) &&
(prev->name == cur->name)) {
if (xmlTextAddContent(prev, cur->content, -1) < 0)
return(NULL);
xmlUnlinkNodeInternal(cur);
xmlFreeNode(cur);
return(prev);
}
if ((next != NULL) && (next->type == XML_TEXT_NODE) &&
(next->name == cur->name)) {
if (cur->content != NULL) {
xmlChar *merged;
merged = xmlStrncatNew(cur->content, next->content, -1);
if (merged == NULL)
return(NULL);
xmlTextSetContent(next, merged);
}
xmlUnlinkNodeInternal(cur);
xmlFreeNode(cur);
return(next);
}
}
/* Unlink */
oldParent = cur->parent;
if (oldParent != NULL) {
if (oldParent->children == cur)
oldParent->children = cur->next;
if (oldParent->last == cur)
oldParent->last = cur->prev;
}
if (cur->next != NULL)
cur->next->prev = cur->prev;
if (cur->prev != NULL)
cur->prev->next = cur->next;
if (cur->doc != doc) {
if (xmlSetTreeDoc(cur, doc) < 0) {
/*
* We shouldn't make any modifications to the inserted
* tree if a memory allocation fails, but that's hard to
* implement. The tree has been moved to the target
* document now but some contents are corrupted.
* Unlinking is the best we can do.
*/
cur->parent = NULL;
cur->prev = NULL;
cur->next = NULL;
return(NULL);
}
}
cur->parent = parent;
cur->prev = prev;
cur->next = next;
if (prev == NULL) {
if (parent != NULL)
parent->children = cur;
} else {
prev->next = cur;
}
if (next == NULL) {
if (parent != NULL)
parent->last = cur;
} else {
next->prev = cur;
}
return(cur);
}
/**
* xmlAddNextSibling:
* @prev: the target node
* @cur: the new node
*
* Unlinks @cur and inserts it as next sibling after @prev.
*
* Unlike xmlAddChild this function does not merge text nodes.
*
* If @cur is an attribute node, it is inserted after attribute
* @prev. If the attribute list contains an attribute with a name
* matching @cur, the old attribute is destroyed.
*
* See the notes in xmlAddChild.
*
* Returns @cur or a sibling if @cur was merged. Returns NULL
* if arguments are invalid or a memory allocation failed.
*/
xmlNodePtr
xmlAddNextSibling(xmlNodePtr prev, xmlNodePtr cur) {
if ((prev == NULL) || (prev->type == XML_NAMESPACE_DECL) ||
(cur == NULL) || (cur->type == XML_NAMESPACE_DECL) ||
(cur == prev))
return(NULL);
if (cur == prev->next)
return(cur);
return(xmlInsertNode(prev->doc, cur, prev->parent, prev, prev->next, 0));
}
#if defined(LIBXML_TREE_ENABLED) || defined(LIBXML_HTML_ENABLED) || \
defined(LIBXML_SCHEMAS_ENABLED) || defined(LIBXML_XINCLUDE_ENABLED)
/**
* xmlAddPrevSibling:
* @next: the target node
* @cur: the new node
*
* Unlinks @cur and inserts it as previous sibling before @next.
*
* Unlike xmlAddChild this function does not merge text nodes.
*
* If @cur is an attribute node, it is inserted before attribute
* @next. If the attribute list contains an attribute with a name
* matching @cur, the old attribute is destroyed.
*
* See the notes in xmlAddChild.
*
* Returns @cur or a sibling if @cur was merged. Returns NULL
* if arguments are invalid or a memory allocation failed.
*/
xmlNodePtr
xmlAddPrevSibling(xmlNodePtr next, xmlNodePtr cur) {
if ((next == NULL) || (next->type == XML_NAMESPACE_DECL) ||
(cur == NULL) || (cur->type == XML_NAMESPACE_DECL) ||
(cur == next))
return(NULL);
if (cur == next->prev)
return(cur);
return(xmlInsertNode(next->doc, cur, next->parent, next->prev, next, 0));
}
#endif /* LIBXML_TREE_ENABLED */
/**
* xmlAddSibling:
* @node: the target node
* @cur: the new node
*
* Unlinks @cur and inserts it as last sibling of @node.
*
* If @cur is a text node, it may be merged with an adjacent text
* node and freed. In this case the text node containing the merged
* content is returned.
*
* If @cur is an attribute node, it is appended to the attribute
* list containing @node. If the attribute list contains an attribute
* with a name matching @cur, the old attribute is destroyed.
*
* See the notes in xmlAddChild.
*
* Returns @cur or a sibling if @cur was merged. Returns NULL
* if arguments are invalid or a memory allocation failed.
*/
xmlNodePtr
xmlAddSibling(xmlNodePtr node, xmlNodePtr cur) {
if ((node == NULL) || (node->type == XML_NAMESPACE_DECL) ||
(cur == NULL) || (cur->type == XML_NAMESPACE_DECL) ||
(cur == node))
return(NULL);
/*
* Constant time is we can rely on the ->parent->last to find
* the last sibling.
*/
if ((node->type != XML_ATTRIBUTE_NODE) && (node->parent != NULL)) {
if (node->parent->last != NULL)
node = node->parent->last;
} else {
while (node->next != NULL)
node = node->next;
}
if (cur == node)
return(cur);
return(xmlInsertNode(node->doc, cur, node->parent, node, NULL, 1));
}
/**
* xmlAddChildList:
* @parent: the parent node
* @cur: the first node in the list
*
* Append a node list to another node.
*
* See xmlAddChild.
*
* Returns the last child or NULL in case of error.
*/
xmlNodePtr
xmlAddChildList(xmlNodePtr parent, xmlNodePtr cur) {
xmlNodePtr iter;
xmlNodePtr prev;
int oom;
if ((parent == NULL) || (parent->type == XML_NAMESPACE_DECL)) {
return(NULL);
}
if ((cur == NULL) || (cur->type == XML_NAMESPACE_DECL)) {
return(NULL);
}
oom = 0;
for (iter = cur; iter != NULL; iter = iter->next) {
if (iter->doc != parent->doc) {
if (xmlSetTreeDoc(iter, parent->doc) < 0)
oom = 1;
}
}
if (oom)
return(NULL);
/*
* add the first element at the end of the children list.
*/
if (parent->children == NULL) {
parent->children = cur;
} else {
prev = parent->last;
/*
* If cur and parent->last both are TEXT nodes, then merge them.
*/
if ((cur->type == XML_TEXT_NODE) &&
(prev->type == XML_TEXT_NODE) &&
(cur->name == prev->name)) {
xmlNodePtr next;
if (xmlTextAddContent(prev, cur->content, -1) < 0)
return(NULL);
next = cur->next;
xmlFreeNode(cur);
/*
* if it's the only child, nothing more to be done.
*/
if (next == NULL)
return(prev);
cur = next;
}
prev->next = cur;
cur->prev = prev;
}
while (cur->next != NULL) {
cur->parent = parent;
cur = cur->next;
}
cur->parent = parent;
parent->last = cur;
return(cur);
}
/**
* xmlAddChild:
* @parent: the parent node
* @cur: the child node
*
* Unlink @cur and append it to the children of @parent.
*
* If @cur is a text node, it may be merged with an adjacent text
* node and freed. In this case the text node containing the merged
* content is returned.
*
* If @cur is an attribute node, it is appended to the attributes of
* @parent. If the attribute list contains an attribute with a name
* matching @elem, the old attribute is destroyed.
*
* General notes:
*
* Move operations like xmlAddChild can cause element or attribute
* nodes to reference namespaces that aren't declared in one of
* their ancestors. This can lead to use-after-free errors if the
* elements containing the declarations are freed later, especially
* when moving nodes from one document to another. You should
* consider calling xmlReconciliateNs after a move operation to
* normalize namespaces. Another option is to call
* xmlDOMWrapAdoptNode with the target parent before moving a node.
*
* For the most part, move operations don't check whether the
* resulting tree structure is valid. Users must make sure that
* parent nodes only receive children of valid types. Inserted
* child nodes must never be an ancestor of the parent node to
* avoid cycles in the tree structure. In general, only
* document, document fragments, elements and attributes
* should be used as parent nodes.
*
* When moving a node between documents and a memory allocation
* fails, the node's content will be corrupted and it will be
* unlinked. In this case, the node must be freed manually.
*
* Moving DTDs between documents isn't supported.
*
* Returns @elem or a sibling if @elem was merged. Returns NULL
* if arguments are invalid or a memory allocation failed.
*/
xmlNodePtr
xmlAddChild(xmlNodePtr parent, xmlNodePtr cur) {
xmlNodePtr prev;
if ((parent == NULL) || (parent->type == XML_NAMESPACE_DECL) ||
(cur == NULL) || (cur->type == XML_NAMESPACE_DECL) ||
(parent == cur))
return(NULL);
/*
* If parent is a text node, call xmlTextAddContent. This
* undocumented quirk should probably be removed.
*/
if (parent->type == XML_TEXT_NODE) {
if (xmlTextAddContent(parent, cur->content, -1) < 0)
return(NULL);
xmlFreeNode(cur);
return(parent);
}
if (cur->type == XML_ATTRIBUTE_NODE) {
prev = (xmlNodePtr) parent->properties;
if (prev != NULL) {
while (prev->next != NULL)
prev = prev->next;
}
} else {
prev = parent->last;
}
if (cur == prev)
return(cur);
return(xmlInsertNode(parent->doc, cur, parent, prev, NULL, 1));
}
/**
* xmlGetLastChild:
* @parent: the parent node
*
* Find the last child of a node.
*
* Returns the last child or NULL if parent has no children.
*/
xmlNodePtr
xmlGetLastChild(const xmlNode *parent) {
if ((parent == NULL) || (parent->type == XML_NAMESPACE_DECL)) {
return(NULL);
}
return(parent->last);
}
#ifdef LIBXML_TREE_ENABLED
/*
* 5 interfaces from DOM ElementTraversal
*/
/**
* xmlChildElementCount:
* @parent: the parent node
*
* Count the number of child nodes which are elements.
*
* Note that entity references are not expanded.
*
* Returns the number of element children or 0 if arguments are
* invalid.
*/
unsigned long
xmlChildElementCount(xmlNodePtr parent) {
unsigned long ret = 0;
xmlNodePtr cur = NULL;
if (parent == NULL)
return(0);
switch (parent->type) {
case XML_ELEMENT_NODE:
case XML_DOCUMENT_NODE:
case XML_DOCUMENT_FRAG_NODE:
case XML_HTML_DOCUMENT_NODE:
case XML_ENTITY_DECL:
cur = parent->children;
break;
default:
return(0);
}
while (cur != NULL) {
if (cur->type == XML_ELEMENT_NODE)
ret++;
cur = cur->next;
}
return(ret);
}
/**
* xmlFirstElementChild:
* @parent: the parent node
*
* Find the first child node which is an element.
*
* Note that entity references are not expanded.
*
* Returns the first element or NULL if parent has no children.
*/
xmlNodePtr
xmlFirstElementChild(xmlNodePtr parent) {
xmlNodePtr cur = NULL;
if (parent == NULL)
return(NULL);
switch (parent->type) {
case XML_ELEMENT_NODE:
case XML_DOCUMENT_NODE:
case XML_DOCUMENT_FRAG_NODE:
case XML_HTML_DOCUMENT_NODE:
case XML_ENTITY_DECL:
cur = parent->children;
break;
default:
return(NULL);
}
while (cur != NULL) {
if (cur->type == XML_ELEMENT_NODE)
return(cur);
cur = cur->next;
}
return(NULL);
}
/**
* xmlLastElementChild:
* @parent: the parent node
*
* Find the last child node which is an element.
*
* Note that entity references are not expanded.
*
* Returns the last element or NULL if parent has no children.
*/
xmlNodePtr
xmlLastElementChild(xmlNodePtr parent) {
xmlNodePtr cur = NULL;
if (parent == NULL)
return(NULL);
switch (parent->type) {
case XML_ELEMENT_NODE:
case XML_DOCUMENT_NODE:
case XML_DOCUMENT_FRAG_NODE:
case XML_HTML_DOCUMENT_NODE:
case XML_ENTITY_DECL:
cur = parent->last;
break;
default:
return(NULL);
}
while (cur != NULL) {
if (cur->type == XML_ELEMENT_NODE)
return(cur);
cur = cur->prev;
}
return(NULL);
}
/**
* xmlPreviousElementSibling:
* @node: the current node
*
* Find the closest preceding sibling which is a element.
*
* Note that entity references are not expanded.
*
* Returns the sibling or NULL if no sibling was found.
*/
xmlNodePtr
xmlPreviousElementSibling(xmlNodePtr node) {
if (node == NULL)
return(NULL);
switch (node->type) {
case XML_ELEMENT_NODE:
case XML_TEXT_NODE:
case XML_CDATA_SECTION_NODE:
case XML_ENTITY_REF_NODE:
case XML_PI_NODE:
case XML_COMMENT_NODE:
case XML_XINCLUDE_START:
case XML_XINCLUDE_END:
node = node->prev;
break;
default:
return(NULL);
}
while (node != NULL) {
if (node->type == XML_ELEMENT_NODE)
return(node);
node = node->prev;
}
return(NULL);
}
/**
* xmlNextElementSibling:
* @node: the current node
*
* Find the closest following sibling which is a element.
*
* Note that entity references are not expanded.
*
* Returns the sibling or NULL if no sibling was found.
*/
xmlNodePtr
xmlNextElementSibling(xmlNodePtr node) {
if (node == NULL)
return(NULL);
switch (node->type) {
case XML_ELEMENT_NODE:
case XML_TEXT_NODE:
case XML_CDATA_SECTION_NODE:
case XML_ENTITY_REF_NODE:
case XML_PI_NODE:
case XML_COMMENT_NODE:
case XML_DTD_NODE:
case XML_XINCLUDE_START:
case XML_XINCLUDE_END:
node = node->next;
break;
default:
return(NULL);
}
while (node != NULL) {
if (node->type == XML_ELEMENT_NODE)
return(node);
node = node->next;
}
return(NULL);
}
#endif /* LIBXML_TREE_ENABLED */
/**
* xmlFreeNodeList:
* @cur: the first node in the list
*
* Free a node list including all children.
*/
void
xmlFreeNodeList(xmlNodePtr cur) {
xmlNodePtr next;
xmlNodePtr parent;
xmlDictPtr dict = NULL;
size_t depth = 0;
if (cur == NULL) return;
if (cur->type == XML_NAMESPACE_DECL) {
xmlFreeNsList((xmlNsPtr) cur);
return;
}
if (cur->doc != NULL) dict = cur->doc->dict;
while (1) {
while ((cur->children != NULL) &&
(cur->type != XML_DOCUMENT_NODE) &&
(cur->type != XML_HTML_DOCUMENT_NODE) &&
(cur->type != XML_DTD_NODE) &&
(cur->type != XML_ENTITY_REF_NODE)) {
cur = cur->children;
depth += 1;
}
next = cur->next;
parent = cur->parent;
if ((cur->type == XML_DOCUMENT_NODE) ||
(cur->type == XML_HTML_DOCUMENT_NODE)) {
xmlFreeDoc((xmlDocPtr) cur);
} else if (cur->type == XML_DTD_NODE) {
/*
* TODO: We should consider freeing the DTD if it isn't
* referenced from doc->intSubset or doc->extSubset.
*/
cur->prev = NULL;
cur->next = NULL;
} else {
if ((__xmlRegisterCallbacks) && (xmlDeregisterNodeDefaultValue))
xmlDeregisterNodeDefaultValue(cur);
if (((cur->type == XML_ELEMENT_NODE) ||
(cur->type == XML_XINCLUDE_START) ||
(cur->type == XML_XINCLUDE_END)) &&
(cur->properties != NULL))
xmlFreePropList(cur->properties);
if ((cur->type != XML_ELEMENT_NODE) &&
(cur->type != XML_XINCLUDE_START) &&
(cur->type != XML_XINCLUDE_END) &&
(cur->type != XML_ENTITY_REF_NODE) &&
(cur->content != (xmlChar *) &(cur->properties))) {
DICT_FREE(cur->content)
}
if (((cur->type == XML_ELEMENT_NODE) ||
(cur->type == XML_XINCLUDE_START) ||
(cur->type == XML_XINCLUDE_END)) &&
(cur->nsDef != NULL))
xmlFreeNsList(cur->nsDef);
/*
* When a node is a text node or a comment, it uses a global static
* variable for the name of the node.
* Otherwise the node name might come from the document's
* dictionary
*/
if ((cur->name != NULL) &&
(cur->type != XML_TEXT_NODE) &&
(cur->type != XML_COMMENT_NODE))
DICT_FREE(cur->name)
xmlFree(cur);
}
if (next != NULL) {
cur = next;
} else {
if ((depth == 0) || (parent == NULL))
break;
depth -= 1;
cur = parent;
cur->children = NULL;
}
}
}
/**
* xmlFreeNode:
* @cur: the node
*
* Free a node including all the children.
*
* This doesn't unlink the node from the tree. Call xmlUnlinkNode first
* unless @cur is a root node.
*/
void
xmlFreeNode(xmlNodePtr cur) {
xmlDictPtr dict = NULL;
if (cur == NULL) return;
/* use xmlFreeDtd for DTD nodes */
if (cur->type == XML_DTD_NODE) {
xmlFreeDtd((xmlDtdPtr) cur);
return;
}
if (cur->type == XML_NAMESPACE_DECL) {
xmlFreeNs((xmlNsPtr) cur);
return;
}
if (cur->type == XML_ATTRIBUTE_NODE) {
xmlFreeProp((xmlAttrPtr) cur);
return;
}
if ((__xmlRegisterCallbacks) && (xmlDeregisterNodeDefaultValue))
xmlDeregisterNodeDefaultValue(cur);
if (cur->doc != NULL) dict = cur->doc->dict;
if (cur->type == XML_ENTITY_DECL) {
xmlEntityPtr ent = (xmlEntityPtr) cur;
DICT_FREE(ent->SystemID);
DICT_FREE(ent->ExternalID);
}
if ((cur->children != NULL) &&
(cur->type != XML_ENTITY_REF_NODE))
xmlFreeNodeList(cur->children);
if ((cur->type == XML_ELEMENT_NODE) ||
(cur->type == XML_XINCLUDE_START) ||
(cur->type == XML_XINCLUDE_END)) {
if (cur->properties != NULL)
xmlFreePropList(cur->properties);
if (cur->nsDef != NULL)
xmlFreeNsList(cur->nsDef);
} else if ((cur->content != NULL) &&
(cur->type != XML_ENTITY_REF_NODE) &&
(cur->content != (xmlChar *) &(cur->properties))) {
DICT_FREE(cur->content)
}
/*
* When a node is a text node or a comment, it uses a global static
* variable for the name of the node.
* Otherwise the node name might come from the document's dictionary
*/
if ((cur->name != NULL) &&
(cur->type != XML_TEXT_NODE) &&
(cur->type != XML_COMMENT_NODE))
DICT_FREE(cur->name)
xmlFree(cur);
}
/**
* xmlUnlinkNodeInternal:
* @cur: the node
*
* Unlink a node from its tree.
*
* This function only unlinks the node from the tree. It doesn't
* clear references to DTD nodes.
*/
static void
xmlUnlinkNodeInternal(xmlNodePtr cur) {
if (cur->parent != NULL) {
xmlNodePtr parent;
parent = cur->parent;
if (cur->type == XML_ATTRIBUTE_NODE) {
if (parent->properties == (xmlAttrPtr) cur)
parent->properties = ((xmlAttrPtr) cur)->next;
} else {
if (parent->children == cur)
parent->children = cur->next;
if (parent->last == cur)
parent->last = cur->prev;
}
cur->parent = NULL;
}
if (cur->next != NULL)
cur->next->prev = cur->prev;
if (cur->prev != NULL)
cur->prev->next = cur->next;
cur->next = NULL;
cur->prev = NULL;
}
/**
* xmlUnlinkNode:
* @cur: the node
*
* Unlink a node from its tree.
*
* The node is not freed. Unless it is reinserted, it must be managed
* manually and freed eventually by calling xmlFreeNode.
*/
void
xmlUnlinkNode(xmlNodePtr cur) {
if (cur == NULL)
return;
if (cur->type == XML_NAMESPACE_DECL)
return;
if (cur->type == XML_DTD_NODE) {
xmlDocPtr doc = cur->doc;
if (doc != NULL) {
if (doc->intSubset == (xmlDtdPtr) cur)
doc->intSubset = NULL;
if (doc->extSubset == (xmlDtdPtr) cur)
doc->extSubset = NULL;
}
}
if (cur->type == XML_ENTITY_DECL)
xmlRemoveEntity((xmlEntityPtr) cur);
xmlUnlinkNodeInternal(cur);
}
#if defined(LIBXML_TREE_ENABLED) || defined(LIBXML_WRITER_ENABLED)
/**
* xmlReplaceNode:
* @old: the old node
* @cur: the node (optional)
*
* Unlink the old node. If @cur is provided, it is unlinked and
* inserted in place of @old.
*
* It is an error if @old has no parent.
*
* Unlike xmlAddChild, this function doesn't merge text nodes or
* delete duplicate attributes.
*
* See the notes in xmlAddChild.
*
* Returns @old or NULL if arguments are invalid or a memory
* allocation failed.
*/
xmlNodePtr
xmlReplaceNode(xmlNodePtr old, xmlNodePtr cur) {
if (old == cur) return(NULL);
if ((old == NULL) || (old->type == XML_NAMESPACE_DECL) ||
(old->parent == NULL)) {
return(NULL);
}
if ((cur == NULL) || (cur->type == XML_NAMESPACE_DECL)) {
/* Don't call xmlUnlinkNodeInternal to handle DTDs. */
xmlUnlinkNode(old);
return(old);
}
if ((old->type==XML_ATTRIBUTE_NODE) && (cur->type!=XML_ATTRIBUTE_NODE)) {
return(old);
}
if ((cur->type==XML_ATTRIBUTE_NODE) && (old->type!=XML_ATTRIBUTE_NODE)) {
return(old);
}
xmlUnlinkNodeInternal(cur);
if (xmlSetTreeDoc(cur, old->doc) < 0)
return(NULL);
cur->parent = old->parent;
cur->next = old->next;
if (cur->next != NULL)
cur->next->prev = cur;
cur->prev = old->prev;
if (cur->prev != NULL)
cur->prev->next = cur;
if (cur->parent != NULL) {
if (cur->type == XML_ATTRIBUTE_NODE) {
if (cur->parent->properties == (xmlAttrPtr)old)
cur->parent->properties = ((xmlAttrPtr) cur);
} else {
if (cur->parent->children == old)
cur->parent->children = cur;
if (cur->parent->last == old)
cur->parent->last = cur;
}
}
old->next = old->prev = NULL;
old->parent = NULL;
return(old);
}
#endif /* LIBXML_TREE_ENABLED */
/************************************************************************
* *
* Copy operations *
* *
************************************************************************/
/**
* xmlCopyNamespace:
* @cur: the namespace
*
* Copy a namespace.
*
* Returns the copied namespace or NULL if a memory allocation
* failed.
*/
xmlNsPtr
xmlCopyNamespace(xmlNsPtr cur) {
xmlNsPtr ret;
if (cur == NULL) return(NULL);
switch (cur->type) {
case XML_LOCAL_NAMESPACE:
ret = xmlNewNs(NULL, cur->href, cur->prefix);
break;
default:
return(NULL);
}
return(ret);
}
/**
* xmlCopyNamespaceList:
* @cur: the first namespace
*
* Copy a namespace list.
*
* Returns the head of the copied list or NULL if a memory
* allocation failed.
*/
xmlNsPtr
xmlCopyNamespaceList(xmlNsPtr cur) {
xmlNsPtr ret = NULL;
xmlNsPtr p = NULL,q;
while (cur != NULL) {
q = xmlCopyNamespace(cur);
if (q == NULL) {
xmlFreeNsList(ret);
return(NULL);
}
if (p == NULL) {
ret = p = q;
} else {
p->next = q;
p = q;
}
cur = cur->next;
}
return(ret);
}
static xmlAttrPtr
xmlCopyPropInternal(xmlDocPtr doc, xmlNodePtr target, xmlAttrPtr cur) {
xmlAttrPtr ret = NULL;
if (cur == NULL) return(NULL);
if ((target != NULL) && (target->type != XML_ELEMENT_NODE))
return(NULL);
if (target != NULL)
ret = xmlNewDocProp(target->doc, cur->name, NULL);
else if (doc != NULL)
ret = xmlNewDocProp(doc, cur->name, NULL);
else if (cur->parent != NULL)
ret = xmlNewDocProp(cur->parent->doc, cur->name, NULL);
else if (cur->children != NULL)
ret = xmlNewDocProp(cur->children->doc, cur->name, NULL);
else
ret = xmlNewDocProp(NULL, cur->name, NULL);
if (ret == NULL) return(NULL);
ret->parent = target;
if ((cur->ns != NULL) && (target != NULL)) {
xmlNsPtr ns;
int res;
res = xmlSearchNsSafe(target, cur->ns->prefix, &ns);
if (res < 0)
goto error;
if (ns == NULL) {
/*
* Humm, we are copying an element whose namespace is defined
* out of the new tree scope. Search it in the original tree
* and add it at the top of the new tree
*/
res = xmlSearchNsSafe(cur->parent, cur->ns->prefix, &ns);
if (res < 0)
goto error;
if (ns != NULL) {
xmlNodePtr root = target;
xmlNodePtr pred = NULL;
while (root->parent != NULL) {
pred = root;
root = root->parent;
}
if (root == (xmlNodePtr) target->doc) {
/* correct possibly cycling above the document elt */
root = pred;
}
ret->ns = xmlNewNs(root, ns->href, ns->prefix);
if (ret->ns == NULL)
goto error;
}
} else {
/*
* we have to find something appropriate here since
* we can't be sure, that the namespace we found is identified
* by the prefix
*/
if (xmlStrEqual(ns->href, cur->ns->href)) {
/* this is the nice case */
ret->ns = ns;
} else {
/*
* we are in trouble: we need a new reconciled namespace.
* This is expensive
*/
ret->ns = xmlNewReconciledNs(target, cur->ns);
if (ret->ns == NULL)
goto error;
}
}
} else
ret->ns = NULL;
if (cur->children != NULL) {
xmlNodePtr tmp;
ret->children = xmlStaticCopyNodeList(cur->children, ret->doc, (xmlNodePtr) ret);
if (ret->children == NULL)
goto error;
ret->last = NULL;
tmp = ret->children;
while (tmp != NULL) {
/* tmp->parent = (xmlNodePtr)ret; */
if (tmp->next == NULL)
ret->last = tmp;
tmp = tmp->next;
}
}
/*
* Try to handle IDs
*/
if ((target != NULL) && (cur != NULL) &&
(target->doc != NULL) && (cur->doc != NULL) &&
(cur->doc->ids != NULL) &&
(cur->parent != NULL) &&
(cur->children != NULL)) {
int res = xmlIsID(cur->doc, cur->parent, cur);
if (res < 0)
goto error;
if (res != 0) {
xmlChar *id;
id = xmlNodeGetContent((xmlNodePtr) cur);
if (id == NULL)
goto error;
res = xmlAddIDSafe(ret, id);
xmlFree(id);
if (res < 0)
goto error;
}
}
return(ret);
error:
xmlFreeProp(ret);
return(NULL);
}
/**
* xmlCopyProp:
* @target: the element where the attribute will be grafted
* @cur: the attribute
*
* Create a copy of the attribute. This function sets the parent
* pointer of the copy to @target but doesn't set the attribute on
* the target element. Users should consider to set the attribute
* by calling xmlAddChild afterwards or reset the parent pointer to
* NULL.
*
* Returns the copied attribute or NULL if a memory allocation
* failed.
*/
xmlAttrPtr
xmlCopyProp(xmlNodePtr target, xmlAttrPtr cur) {
return xmlCopyPropInternal(NULL, target, cur);
}
/**
* xmlCopyPropList:
* @target: the element where the attributes will be grafted
* @cur: the first attribute
*
* Create a copy of an attribute list. This function sets the
* parent pointers of the copied attributes to @target but doesn't
* set the attributes on the target element.
*
* Returns the head of the copied list or NULL if a memory
* allocation failed.
*/
xmlAttrPtr
xmlCopyPropList(xmlNodePtr target, xmlAttrPtr cur) {
xmlAttrPtr ret = NULL;
xmlAttrPtr p = NULL,q;
if ((target != NULL) && (target->type != XML_ELEMENT_NODE))
return(NULL);
while (cur != NULL) {
q = xmlCopyProp(target, cur);
if (q == NULL) {
xmlFreePropList(ret);
return(NULL);
}
if (p == NULL) {
ret = p = q;
} else {
p->next = q;
q->prev = p;
p = q;
}
cur = cur->next;
}
return(ret);
}
/*
* NOTE about the CopyNode operations !
*
* They are split into external and internal parts for one
* tricky reason: namespaces. Doing a direct copy of a node
* say RPM:Copyright without changing the namespace pointer to
* something else can produce stale links. One way to do it is
* to keep a reference counter but this doesn't work as soon
* as one moves the element or the subtree out of the scope of
* the existing namespace. The actual solution seems to be to add
* a copy of the namespace at the top of the copied tree if
* not available in the subtree.
* Hence two functions, the public front-end call the inner ones
* The argument "recursive" normally indicates a recursive copy
* of the node with values 0 (no) and 1 (yes). For XInclude,
* however, we allow a value of 2 to indicate copy properties and
* namespace info, but don't recurse on children.
*/
xmlNodePtr
xmlStaticCopyNode(xmlNodePtr node, xmlDocPtr doc, xmlNodePtr parent,
int extended) {
xmlNodePtr ret;
if (node == NULL) return(NULL);
switch (node->type) {
case XML_TEXT_NODE:
case XML_CDATA_SECTION_NODE:
case XML_ELEMENT_NODE:
case XML_DOCUMENT_FRAG_NODE:
case XML_ENTITY_REF_NODE:
case XML_PI_NODE:
case XML_COMMENT_NODE:
case XML_XINCLUDE_START:
case XML_XINCLUDE_END:
break;
case XML_ATTRIBUTE_NODE:
return((xmlNodePtr) xmlCopyPropInternal(doc, parent, (xmlAttrPtr) node));
case XML_NAMESPACE_DECL:
return((xmlNodePtr) xmlCopyNamespaceList((xmlNsPtr) node));
case XML_DOCUMENT_NODE:
case XML_HTML_DOCUMENT_NODE:
#ifdef LIBXML_TREE_ENABLED
return((xmlNodePtr) xmlCopyDoc((xmlDocPtr) node, extended));
#endif /* LIBXML_TREE_ENABLED */
default:
return(NULL);
}
/*
* Allocate a new node and fill the fields.
*/
ret = (xmlNodePtr) xmlMalloc(sizeof(xmlNode));
if (ret == NULL)
return(NULL);
memset(ret, 0, sizeof(xmlNode));
ret->type = node->type;
ret->doc = doc;
ret->parent = parent;
if (node->name == xmlStringText)
ret->name = xmlStringText;
else if (node->name == xmlStringTextNoenc)
ret->name = xmlStringTextNoenc;
else if (node->name == xmlStringComment)
ret->name = xmlStringComment;
else if (node->name != NULL) {
if ((doc != NULL) && (doc->dict != NULL))
ret->name = xmlDictLookup(doc->dict, node->name, -1);
else
ret->name = xmlStrdup(node->name);
if (ret->name == NULL)
goto error;
}
if ((node->type != XML_ELEMENT_NODE) &&
(node->content != NULL) &&
(node->type != XML_ENTITY_REF_NODE) &&
(node->type != XML_XINCLUDE_END) &&
(node->type != XML_XINCLUDE_START)) {
ret->content = xmlStrdup(node->content);
if (ret->content == NULL)
goto error;
}else{
if (node->type == XML_ELEMENT_NODE)
ret->line = node->line;
}
if (!extended)
goto out;
if (((node->type == XML_ELEMENT_NODE) ||
(node->type == XML_XINCLUDE_START)) && (node->nsDef != NULL)) {
ret->nsDef = xmlCopyNamespaceList(node->nsDef);
if (ret->nsDef == NULL)
goto error;
}
if ((node->type == XML_ELEMENT_NODE) && (node->ns != NULL)) {
xmlNsPtr ns = NULL;
int res;
res = xmlSearchNsSafe(ret, node->ns->prefix, &ns);
if (res < 0)
goto error;
if (ns == NULL) {
/*
* Humm, we are copying an element whose namespace is defined
* out of the new tree scope. Search it in the original tree
* and add it at the top of the new tree.
*
* TODO: Searching the original tree seems unnecessary. We
* already have a namespace URI.
*/
res = xmlSearchNsSafe(node, node->ns->prefix, &ns);
if (res < 0)
goto error;
if (ns != NULL) {
xmlNodePtr root = ret;
while (root->parent != NULL) root = root->parent;
ret->ns = xmlNewNs(root, ns->href, ns->prefix);
} else {
ret->ns = xmlNewReconciledNs(ret, node->ns);
}
if (ret->ns == NULL)
goto error;
} else {
/*
* reference the existing namespace definition in our own tree.
*/
ret->ns = ns;
}
}
if ((node->type == XML_ELEMENT_NODE) && (node->properties != NULL)) {
ret->properties = xmlCopyPropList(ret, node->properties);
if (ret->properties == NULL)
goto error;
}
if (node->type == XML_ENTITY_REF_NODE) {
if ((doc == NULL) || (node->doc != doc)) {
/*
* The copied node will go into a separate document, so
* to avoid dangling references to the ENTITY_DECL node
* we cannot keep the reference. Try to find it in the
* target document.
*/
ret->children = (xmlNodePtr) xmlGetDocEntity(doc, ret->name);
} else {
ret->children = node->children;
}
ret->last = ret->children;
} else if ((node->children != NULL) && (extended != 2)) {
xmlNodePtr cur, insert;
cur = node->children;
insert = ret;
while (cur != NULL) {
xmlNodePtr copy = xmlStaticCopyNode(cur, doc, insert, 2);
if (copy == NULL)
goto error;
/* Check for coalesced text nodes */
if (insert->last != copy) {
if (insert->last == NULL) {
insert->children = copy;
} else {
copy->prev = insert->last;
insert->last->next = copy;
}
insert->last = copy;
}
if ((cur->type != XML_ENTITY_REF_NODE) &&
(cur->children != NULL)) {
cur = cur->children;
insert = copy;
continue;
}
while (1) {
if (cur->next != NULL) {
cur = cur->next;
break;
}
cur = cur->parent;
insert = insert->parent;
if (cur == node) {
cur = NULL;
break;
}
}
}
}
out:
if ((__xmlRegisterCallbacks) && (xmlRegisterNodeDefaultValue))
xmlRegisterNodeDefaultValue((xmlNodePtr)ret);
return(ret);
error:
xmlFreeNode(ret);
return(NULL);
}
/**
* xmlStaticCopyNodeList:
* @node: node to copy
* @doc: target document
* @parent: target node (optional)
*
* Copy a node list. If @parent is provided, sets the parent pointer
* of the copied nodes, but doesn't update the children and last
* pointer of @parent.
*
* Returns a the copy or NULL in case of error.
*/
xmlNodePtr
xmlStaticCopyNodeList(xmlNodePtr node, xmlDocPtr doc, xmlNodePtr parent) {
xmlNodePtr ret = NULL;
xmlNodePtr p = NULL,q;
xmlDtdPtr newSubset = NULL;
int linkedSubset = 0;
while (node != NULL) {
xmlNodePtr next = node->next;
#ifdef LIBXML_TREE_ENABLED
if (node->type == XML_DTD_NODE ) {
if (doc == NULL) {
node = next;
continue;
}
if ((doc->intSubset == NULL) && (newSubset == NULL)) {
q = (xmlNodePtr) xmlCopyDtd( (xmlDtdPtr) node );
if (q == NULL) goto error;
/* Can't fail on DTD */
xmlSetTreeDoc(q, doc);
q->parent = parent;
newSubset = (xmlDtdPtr) q;
} else {
/*
* We don't allow multiple internal subsets in a document,
* so we move the DTD instead of creating a copy.
*/
linkedSubset = 1;
q = (xmlNodePtr) doc->intSubset;
/* Unlink */
if (q->prev == NULL) {
if (q->parent != NULL)
q->parent->children = q->next;
} else {
q->prev->next = q->next;
}
if (q->next == NULL) {
if (q->parent != NULL)
q->parent->last = q->prev;
} else {
q->next->prev = q->prev;
}
q->parent = parent;
q->next = NULL;
q->prev = NULL;
}
} else
#endif /* LIBXML_TREE_ENABLED */
q = xmlStaticCopyNode(node, doc, parent, 1);
if (q == NULL) goto error;
if (ret == NULL) {
q->prev = NULL;
ret = p = q;
} else if (p != q) {
/* the test is required if xmlStaticCopyNode coalesced 2 text nodes */
p->next = q;
q->prev = p;
p = q;
}
node = next;
}
if ((doc != NULL) && (newSubset != NULL))
doc->intSubset = newSubset;
return(ret);
error:
xmlFreeNodeList(ret);
if (newSubset != NULL)
xmlFreeDtd(newSubset);
if (linkedSubset != 0) {
doc->intSubset->next = NULL;
doc->intSubset->prev = NULL;
}
return(NULL);
}
/**
* xmlCopyNode:
* @node: the node
* @extended: if 1 do a recursive copy (properties, namespaces and children
* when applicable)
* if 2 copy properties and namespaces (when applicable)
*
* Copy a node.
*
* Use of this function is DISCOURAGED in favor of xmlDocCopyNode.
*
* Returns the copied node or NULL if a memory allocation failed.
*/
xmlNodePtr
xmlCopyNode(xmlNodePtr node, int extended) {
xmlNodePtr ret;
ret = xmlStaticCopyNode(node, NULL, NULL, extended);
return(ret);
}
/**
* xmlDocCopyNode:
* @node: the node
* @doc: the document
* @extended: if 1 do a recursive copy (properties, namespaces and children
* when applicable)
* if 2 copy properties and namespaces (when applicable)
*
* Copy a node into another document.
*
* Returns the copied node or NULL if a memory allocation failed.
*/
xmlNodePtr
xmlDocCopyNode(xmlNodePtr node, xmlDocPtr doc, int extended) {
xmlNodePtr ret;
ret = xmlStaticCopyNode(node, doc, NULL, extended);
return(ret);
}
/**
* xmlDocCopyNodeList:
* @doc: the target document
* @node: the first node in the list.
*
* Copy a node list and all children into a new document.
*
* Returns the head of the copied list or NULL if a memory
* allocation failed.
*/
xmlNodePtr xmlDocCopyNodeList(xmlDocPtr doc, xmlNodePtr node) {
xmlNodePtr ret = xmlStaticCopyNodeList(node, doc, NULL);
return(ret);
}
/**
* xmlCopyNodeList:
* @node: the first node in the list.
*
* Copy a node list and all children.
*
* Use of this function is DISCOURAGED in favor of xmlDocCopyNodeList.
*
* Returns the head of the copied list or NULL if a memory
* allocation failed.
*/
xmlNodePtr xmlCopyNodeList(xmlNodePtr node) {
xmlNodePtr ret = xmlStaticCopyNodeList(node, NULL, NULL);
return(ret);
}
#if defined(LIBXML_TREE_ENABLED)
/**
* xmlCopyDtd:
* @dtd: the DTD
*
* Copy a DTD.
*
* Returns the copied DTD or NULL if a memory allocation failed.
*/
xmlDtdPtr
xmlCopyDtd(xmlDtdPtr dtd) {
xmlDtdPtr ret;
xmlNodePtr cur, p = NULL, q;
if (dtd == NULL) return(NULL);
ret = xmlNewDtd(NULL, dtd->name, dtd->ExternalID, dtd->SystemID);
if (ret == NULL) return(NULL);
if (dtd->entities != NULL) {
ret->entities = (void *) xmlCopyEntitiesTable(
(xmlEntitiesTablePtr) dtd->entities);
if (ret->entities == NULL)
goto error;
}
if (dtd->notations != NULL) {
ret->notations = (void *) xmlCopyNotationTable(
(xmlNotationTablePtr) dtd->notations);
if (ret->notations == NULL)
goto error;
}
if (dtd->elements != NULL) {
ret->elements = (void *) xmlCopyElementTable(
(xmlElementTablePtr) dtd->elements);
if (ret->elements == NULL)
goto error;
}
if (dtd->attributes != NULL) {
ret->attributes = (void *) xmlCopyAttributeTable(
(xmlAttributeTablePtr) dtd->attributes);
if (ret->attributes == NULL)
goto error;
}
if (dtd->pentities != NULL) {
ret->pentities = (void *) xmlCopyEntitiesTable(
(xmlEntitiesTablePtr) dtd->pentities);
if (ret->pentities == NULL)
goto error;
}
cur = dtd->children;
while (cur != NULL) {
q = NULL;
if (cur->type == XML_ENTITY_DECL) {
xmlEntityPtr tmp = (xmlEntityPtr) cur;
switch (tmp->etype) {
case XML_INTERNAL_GENERAL_ENTITY:
case XML_EXTERNAL_GENERAL_PARSED_ENTITY:
case XML_EXTERNAL_GENERAL_UNPARSED_ENTITY:
q = (xmlNodePtr) xmlGetEntityFromDtd(ret, tmp->name);
break;
case XML_INTERNAL_PARAMETER_ENTITY:
case XML_EXTERNAL_PARAMETER_ENTITY:
q = (xmlNodePtr)
xmlGetParameterEntityFromDtd(ret, tmp->name);
break;
case XML_INTERNAL_PREDEFINED_ENTITY:
break;
}
} else if (cur->type == XML_ELEMENT_DECL) {
xmlElementPtr tmp = (xmlElementPtr) cur;
q = (xmlNodePtr)
xmlGetDtdQElementDesc(ret, tmp->name, tmp->prefix);
} else if (cur->type == XML_ATTRIBUTE_DECL) {
xmlAttributePtr tmp = (xmlAttributePtr) cur;
q = (xmlNodePtr)
xmlGetDtdQAttrDesc(ret, tmp->elem, tmp->name, tmp->prefix);
} else if (cur->type == XML_COMMENT_NODE) {
q = xmlCopyNode(cur, 0);
if (q == NULL)
goto error;
}
if (q == NULL) {
cur = cur->next;
continue;
}
if (p == NULL)
ret->children = q;
else
p->next = q;
q->prev = p;
q->parent = (xmlNodePtr) ret;
q->next = NULL;
ret->last = q;
p = q;
cur = cur->next;
}
return(ret);
error:
xmlFreeDtd(ret);
return(NULL);
}
#endif
#if defined(LIBXML_TREE_ENABLED) || defined(LIBXML_SCHEMAS_ENABLED)
/**
* xmlCopyDoc:
* @doc: the document
* @recursive: if not zero do a recursive copy.
*
* Copy a document. If recursive, the content tree will
* be copied too as well as DTD, namespaces and entities.
*
* Returns the copied document or NULL if a memory allocation
* failed.
*/
xmlDocPtr
xmlCopyDoc(xmlDocPtr doc, int recursive) {
xmlDocPtr ret;
if (doc == NULL) return(NULL);
ret = xmlNewDoc(doc->version);
if (ret == NULL) return(NULL);
ret->type = doc->type;
if (doc->name != NULL) {
ret->name = xmlMemStrdup(doc->name);
if (ret->name == NULL)
goto error;
}
if (doc->encoding != NULL) {
ret->encoding = xmlStrdup(doc->encoding);
if (ret->encoding == NULL)
goto error;
}
if (doc->URL != NULL) {
ret->URL = xmlStrdup(doc->URL);
if (ret->URL == NULL)
goto error;
}
ret->charset = doc->charset;
ret->compression = doc->compression;
ret->standalone = doc->standalone;
if (!recursive) return(ret);
ret->last = NULL;
ret->children = NULL;
#ifdef LIBXML_TREE_ENABLED
if (doc->intSubset != NULL) {
ret->intSubset = xmlCopyDtd(doc->intSubset);
if (ret->intSubset == NULL)
goto error;
/* Can't fail on DTD */
xmlSetTreeDoc((xmlNodePtr)ret->intSubset, ret);
}
#endif
if (doc->oldNs != NULL) {
ret->oldNs = xmlCopyNamespaceList(doc->oldNs);
if (ret->oldNs == NULL)
goto error;
}
if (doc->children != NULL) {
xmlNodePtr tmp;
ret->children = xmlStaticCopyNodeList(doc->children, ret,
(xmlNodePtr)ret);
if (ret->children == NULL)
goto error;
ret->last = NULL;
tmp = ret->children;
while (tmp != NULL) {
if (tmp->next == NULL)
ret->last = tmp;
tmp = tmp->next;
}
}
return(ret);
error:
xmlFreeDoc(ret);
return(NULL);
}
#endif /* LIBXML_TREE_ENABLED */
/************************************************************************
* *
* Content access functions *
* *
************************************************************************/
/**
* xmlGetLineNoInternal:
* @node: valid node
* @depth: used to limit any risk of recursion
*
* Get line number of @node.
* Try to override the limitation of lines being store in 16 bits ints
*
* Returns the line number if successful, -1 otherwise
*/
static long
xmlGetLineNoInternal(const xmlNode *node, int depth)
{
long result = -1;
if (depth >= 5)
return(-1);
if (!node)
return result;
if ((node->type == XML_ELEMENT_NODE) ||
(node->type == XML_TEXT_NODE) ||
(node->type == XML_COMMENT_NODE) ||
(node->type == XML_PI_NODE)) {
if (node->line == 65535) {
if ((node->type == XML_TEXT_NODE) && (node->psvi != NULL))
result = (long) (ptrdiff_t) node->psvi;
else if ((node->type == XML_ELEMENT_NODE) &&
(node->children != NULL))
result = xmlGetLineNoInternal(node->children, depth + 1);
else if (node->next != NULL)
result = xmlGetLineNoInternal(node->next, depth + 1);
else if (node->prev != NULL)
result = xmlGetLineNoInternal(node->prev, depth + 1);
}
if ((result == -1) || (result == 65535))
result = (long) node->line;
} else if ((node->prev != NULL) &&
((node->prev->type == XML_ELEMENT_NODE) ||
(node->prev->type == XML_TEXT_NODE) ||
(node->prev->type == XML_COMMENT_NODE) ||
(node->prev->type == XML_PI_NODE)))
result = xmlGetLineNoInternal(node->prev, depth + 1);
else if ((node->parent != NULL) &&
(node->parent->type == XML_ELEMENT_NODE))
result = xmlGetLineNoInternal(node->parent, depth + 1);
return result;
}
/**
* xmlGetLineNo:
* @node: valid node
*
* Get line number of @node.
* Try to override the limitation of lines being store in 16 bits ints
* if XML_PARSE_BIG_LINES parser option was used
*
* Returns the line number if successful, -1 otherwise
*/
long
xmlGetLineNo(const xmlNode *node)
{
return(xmlGetLineNoInternal(node, 0));
}
#if defined(LIBXML_TREE_ENABLED) || defined(LIBXML_DEBUG_ENABLED)
/**
* xmlGetNodePath:
* @node: a node
*
* Build a structure based Path for the given node
*
* Returns the new path or NULL in case of error. The caller must free
* the returned string
*/
xmlChar *
xmlGetNodePath(const xmlNode *node)
{
const xmlNode *cur, *tmp, *next;
xmlChar *buffer = NULL, *temp;
size_t buf_len;
xmlChar *buf;
const char *sep;
const char *name;
char nametemp[100];
int occur = 0, generic;
if ((node == NULL) || (node->type == XML_NAMESPACE_DECL))
return (NULL);
buf_len = 500;
buffer = (xmlChar *) xmlMallocAtomic(buf_len);
if (buffer == NULL)
return (NULL);
buf = (xmlChar *) xmlMallocAtomic(buf_len);
if (buf == NULL) {
xmlFree(buffer);
return (NULL);
}
buffer[0] = 0;
cur = node;
do {
name = "";
sep = "?";
occur = 0;
if ((cur->type == XML_DOCUMENT_NODE) ||
(cur->type == XML_HTML_DOCUMENT_NODE)) {
if (buffer[0] == '/')
break;
sep = "/";
next = NULL;
} else if (cur->type == XML_ELEMENT_NODE) {
generic = 0;
sep = "/";
name = (const char *) cur->name;
if (cur->ns) {
if (cur->ns->prefix != NULL) {
snprintf(nametemp, sizeof(nametemp) - 1, "%s:%s",
(char *)cur->ns->prefix, (char *)cur->name);
nametemp[sizeof(nametemp) - 1] = 0;
name = nametemp;
} else {
/*
* We cannot express named elements in the default
* namespace, so use "*".
*/
generic = 1;
name = "*";
}
}
next = cur->parent;
/*
* Thumbler index computation
* TODO: the occurrence test seems bogus for namespaced names
*/
tmp = cur->prev;
while (tmp != NULL) {
if ((tmp->type == XML_ELEMENT_NODE) &&
(generic ||
(xmlStrEqual(cur->name, tmp->name) &&
((tmp->ns == cur->ns) ||
((tmp->ns != NULL) && (cur->ns != NULL) &&
(xmlStrEqual(cur->ns->prefix, tmp->ns->prefix)))))))
occur++;
tmp = tmp->prev;
}
if (occur == 0) {
tmp = cur->next;
while (tmp != NULL && occur == 0) {
if ((tmp->type == XML_ELEMENT_NODE) &&
(generic ||
(xmlStrEqual(cur->name, tmp->name) &&
((tmp->ns == cur->ns) ||
((tmp->ns != NULL) && (cur->ns != NULL) &&
(xmlStrEqual(cur->ns->prefix, tmp->ns->prefix)))))))
occur++;
tmp = tmp->next;
}
if (occur != 0)
occur = 1;
} else
occur++;
} else if (cur->type == XML_COMMENT_NODE) {
sep = "/";
name = "comment()";
next = cur->parent;
/*
* Thumbler index computation
*/
tmp = cur->prev;
while (tmp != NULL) {
if (tmp->type == XML_COMMENT_NODE)
occur++;
tmp = tmp->prev;
}
if (occur == 0) {
tmp = cur->next;
while (tmp != NULL && occur == 0) {
if (tmp->type == XML_COMMENT_NODE)
occur++;
tmp = tmp->next;
}
if (occur != 0)
occur = 1;
} else
occur++;
} else if ((cur->type == XML_TEXT_NODE) ||
(cur->type == XML_CDATA_SECTION_NODE)) {
sep = "/";
name = "text()";
next = cur->parent;
/*
* Thumbler index computation
*/
tmp = cur->prev;
while (tmp != NULL) {
if ((tmp->type == XML_TEXT_NODE) ||
(tmp->type == XML_CDATA_SECTION_NODE))
occur++;
tmp = tmp->prev;
}
/*
* Evaluate if this is the only text- or CDATA-section-node;
* if yes, then we'll get "text()", otherwise "text()[1]".
*/
if (occur == 0) {
tmp = cur->next;
while (tmp != NULL) {
if ((tmp->type == XML_TEXT_NODE) ||
(tmp->type == XML_CDATA_SECTION_NODE))
{
occur = 1;
break;
}
tmp = tmp->next;
}
} else
occur++;
} else if (cur->type == XML_PI_NODE) {
sep = "/";
snprintf(nametemp, sizeof(nametemp) - 1,
"processing-instruction('%s')", (char *)cur->name);
nametemp[sizeof(nametemp) - 1] = 0;
name = nametemp;
next = cur->parent;
/*
* Thumbler index computation
*/
tmp = cur->prev;
while (tmp != NULL) {
if ((tmp->type == XML_PI_NODE) &&
(xmlStrEqual(cur->name, tmp->name)))
occur++;
tmp = tmp->prev;
}
if (occur == 0) {
tmp = cur->next;
while (tmp != NULL && occur == 0) {
if ((tmp->type == XML_PI_NODE) &&
(xmlStrEqual(cur->name, tmp->name)))
occur++;
tmp = tmp->next;
}
if (occur != 0)
occur = 1;
} else
occur++;
} else if (cur->type == XML_ATTRIBUTE_NODE) {
sep = "/@";
name = (const char *) (((xmlAttrPtr) cur)->name);
if (cur->ns) {
if (cur->ns->prefix != NULL)
snprintf(nametemp, sizeof(nametemp) - 1, "%s:%s",
(char *)cur->ns->prefix, (char *)cur->name);
else
snprintf(nametemp, sizeof(nametemp) - 1, "%s",
(char *)cur->name);
nametemp[sizeof(nametemp) - 1] = 0;
name = nametemp;
}
next = ((xmlAttrPtr) cur)->parent;
} else {
xmlFree(buf);
xmlFree(buffer);
return (NULL);
}
/*
* Make sure there is enough room
*/
if (xmlStrlen(buffer) + sizeof(nametemp) + 20 > buf_len) {
buf_len =
2 * buf_len + xmlStrlen(buffer) + sizeof(nametemp) + 20;
temp = (xmlChar *) xmlRealloc(buffer, buf_len);
if (temp == NULL) {
xmlFree(buf);
xmlFree(buffer);
return (NULL);
}
buffer = temp;
temp = (xmlChar *) xmlRealloc(buf, buf_len);
if (temp == NULL) {
xmlFree(buf);
xmlFree(buffer);
return (NULL);
}
buf = temp;
}
if (occur == 0)
snprintf((char *) buf, buf_len, "%s%s%s",
sep, name, (char *) buffer);
else
snprintf((char *) buf, buf_len, "%s%s[%d]%s",
sep, name, occur, (char *) buffer);
snprintf((char *) buffer, buf_len, "%s", (char *)buf);
cur = next;
} while (cur != NULL);
xmlFree(buf);
return (buffer);
}
#endif /* LIBXML_TREE_ENABLED */
/**
* xmlDocGetRootElement:
* @doc: the document
*
* Get the root element of the document (doc->children is a list
* containing possibly comments, PIs, etc ...).
*
* Returns the root element or NULL if no element was found.
*/
xmlNodePtr
xmlDocGetRootElement(const xmlDoc *doc) {
xmlNodePtr ret;
if (doc == NULL) return(NULL);
ret = doc->children;
while (ret != NULL) {
if (ret->type == XML_ELEMENT_NODE)
return(ret);
ret = ret->next;
}
return(ret);
}
#if defined(LIBXML_TREE_ENABLED) || defined(LIBXML_WRITER_ENABLED)
/**
* xmlDocSetRootElement:
* @doc: the document
* @root: the new document root element, if root is NULL no action is taken,
* to remove a node from a document use xmlUnlinkNode(root) instead.
*
* Set the root element of the document (doc->children is a list
* containing possibly comments, PIs, etc ...).
*
* @root must be an element node. It is unlinked before insertion.
*
* Returns the unlinked old root element or NULL if the document
* didn't have a root element or a memory allocation failed.
*/
xmlNodePtr
xmlDocSetRootElement(xmlDocPtr doc, xmlNodePtr root) {
xmlNodePtr old = NULL;
if (doc == NULL) return(NULL);
if ((root == NULL) || (root->type == XML_NAMESPACE_DECL))
return(NULL);
old = doc->children;
while (old != NULL) {
if (old->type == XML_ELEMENT_NODE)
break;
old = old->next;
}
if (old == root)
return(old);
xmlUnlinkNodeInternal(root);
if (xmlSetTreeDoc(root, doc) < 0)
return(NULL);
root->parent = (xmlNodePtr) doc;
if (old == NULL) {
if (doc->children == NULL) {
doc->children = root;
doc->last = root;
} else {
xmlAddSibling(doc->children, root);
}
} else {
xmlReplaceNode(old, root);
}
return(old);
}
#endif
#if defined(LIBXML_TREE_ENABLED)
/**
* xmlNodeSetLang:
* @cur: the node being changed
* @lang: the language description
*
* Set the language of a node, i.e. the values of the xml:lang
* attribute.
*
* Return 0 on success, 1 if arguments are invalid, -1 if a
* memory allocation failed.
*/
int
xmlNodeSetLang(xmlNodePtr cur, const xmlChar *lang) {
xmlNsPtr ns;
xmlAttrPtr attr;
int res;
if ((cur == NULL) || (cur->type != XML_ELEMENT_NODE))
return(1);
res = xmlSearchNsByHrefSafe(cur, XML_XML_NAMESPACE, &ns);
if (res != 0)
return(res);
attr = xmlSetNsProp(cur, ns, BAD_CAST "lang", lang);
if (attr == NULL)
return(-1);
return(0);
}
#endif /* LIBXML_TREE_ENABLED */
/**
* xmlNodeGetLang:
* @cur: the node being checked
*
* Searches the language of a node, i.e. the values of the xml:lang
* attribute or the one carried by the nearest ancestor.
*
* Returns a pointer to the lang value, or NULL if not found
* It's up to the caller to free the memory with xmlFree().
*/
xmlChar *
xmlNodeGetLang(const xmlNode *cur) {
xmlChar *lang;
int res;
if ((cur == NULL) || (cur->type == XML_NAMESPACE_DECL))
return(NULL);
while (cur != NULL) {
res = xmlNodeGetAttrValue(cur, BAD_CAST "lang", XML_XML_NAMESPACE,
&lang);
if (res < 0)
return(NULL);
if (lang != NULL)
return(lang);
cur = cur->parent;
}
return(NULL);
}
#ifdef LIBXML_TREE_ENABLED
/**
* xmlNodeSetSpacePreserve:
* @cur: the node being changed
* @val: the xml:space value ("0": default, 1: "preserve")
*
* Set (or reset) the space preserving behaviour of a node, i.e. the
* value of the xml:space attribute.
*
* Return 0 on success, 1 if arguments are invalid, -1 if a
* memory allocation failed.
*/
int
xmlNodeSetSpacePreserve(xmlNodePtr cur, int val) {
xmlNsPtr ns;
xmlAttrPtr attr;
const char *string;
int res;
if ((cur == NULL) || (cur->type != XML_ELEMENT_NODE))
return(1);
res = xmlSearchNsByHrefSafe(cur, XML_XML_NAMESPACE, &ns);
if (res != 0)
return(res);
if (val == 0)
string = "default";
else
string = "preserve";
attr = xmlSetNsProp(cur, ns, BAD_CAST "space", BAD_CAST string);
if (attr == NULL)
return(-1);
return(0);
}
#endif /* LIBXML_TREE_ENABLED */
/**
* xmlNodeGetSpacePreserve:
* @cur: the node being checked
*
* Searches the space preserving behaviour of a node, i.e. the values
* of the xml:space attribute or the one carried by the nearest
* ancestor.
*
* Returns -1 if xml:space is not inherited, 0 if "default", 1 if "preserve"
*/
int
xmlNodeGetSpacePreserve(const xmlNode *cur) {
xmlChar *space;
int res;
if ((cur == NULL) || (cur->type != XML_ELEMENT_NODE))
return(-1);
while (cur != NULL) {
res = xmlNodeGetAttrValue(cur, BAD_CAST "space", XML_XML_NAMESPACE,
&space);
if (res < 0)
return(-1);
if (space != NULL) {
if (xmlStrEqual(space, BAD_CAST "preserve")) {
xmlFree(space);
return(1);
}
if (xmlStrEqual(space, BAD_CAST "default")) {
xmlFree(space);
return(0);
}
xmlFree(space);
}
cur = cur->parent;
}
return(-1);
}
#ifdef LIBXML_TREE_ENABLED
/**
* xmlNodeSetName:
* @cur: the node being changed
* @name: the new tag name
*
* Set (or reset) the name of a node.
*/
void
xmlNodeSetName(xmlNodePtr cur, const xmlChar *name) {
xmlDocPtr doc;
xmlDictPtr dict;
const xmlChar *copy;
const xmlChar *oldName;
if (cur == NULL) return;
if (name == NULL) return;
switch(cur->type) {
case XML_ELEMENT_NODE:
case XML_ATTRIBUTE_NODE:
case XML_PI_NODE:
case XML_ENTITY_REF_NODE:
break;
default:
return;
}
doc = cur->doc;
if (doc != NULL)
dict = doc->dict;
else
dict = NULL;
if (dict != NULL)
copy = xmlDictLookup(dict, name, -1);
else
copy = xmlStrdup(name);
if (copy == NULL)
return;
oldName = cur->name;
cur->name = copy;
if ((oldName != NULL) &&
((dict == NULL) || (!xmlDictOwns(dict, oldName))))
xmlFree((xmlChar *) oldName);
}
#endif
#if defined(LIBXML_TREE_ENABLED) || defined(LIBXML_XINCLUDE_ENABLED)
/**
* xmlNodeSetBase:
* @cur: the node being changed
* @uri: the new base URI
*
* Set (or reset) the base URI of a node, i.e. the value of the
* xml:base attribute.
*
* Returns 0 on success, -1 on error.
*/
int
xmlNodeSetBase(xmlNodePtr cur, const xmlChar* uri) {
xmlNsPtr ns;
xmlChar* fixed;
if (cur == NULL)
return(-1);
switch(cur->type) {
case XML_ELEMENT_NODE:
case XML_ATTRIBUTE_NODE:
break;
case XML_DOCUMENT_NODE:
case XML_HTML_DOCUMENT_NODE: {
xmlDocPtr doc = (xmlDocPtr) cur;
if (doc->URL != NULL)
xmlFree((xmlChar *) doc->URL);
if (uri == NULL) {
doc->URL = NULL;
} else {
doc->URL = xmlPathToURI(uri);
if (doc->URL == NULL)
return(-1);
}
return(0);
}
default:
return(-1);
}
xmlSearchNsByHrefSafe(cur, XML_XML_NAMESPACE, &ns);
if (ns == NULL)
return(-1);
fixed = xmlPathToURI(uri);
if (fixed == NULL)
return(-1);
if (xmlSetNsProp(cur, ns, BAD_CAST "base", fixed) == NULL) {
xmlFree(fixed);
return(-1);
}
xmlFree(fixed);
return(0);
}
#endif /* LIBXML_TREE_ENABLED */
/**
* xmlNodeGetBase:
* @doc: the document the node pertains to
* @cur: the node being checked
* @baseOut: pointer to base
*
* Searches for the BASE URL. The code should work on both XML
* and HTML document even if base mechanisms are completely different.
* It returns the base as defined in RFC 2396 sections
* 5.1.1. Base URI within Document Content
* and
* 5.1.2. Base URI from the Encapsulating Entity
* However it does not return the document base (5.1.3), use
* doc->URL in this case
*
* Return 0 in case of success, 1 if a URI or argument is invalid, -1 if a
* memory allocation failed.
*/
int
xmlNodeGetBaseSafe(const xmlDoc *doc, const xmlNode *cur, xmlChar **baseOut) {
xmlChar *ret = NULL;
xmlChar *base, *newbase;
int res;
if (baseOut == NULL)
return(1);
*baseOut = NULL;
if ((cur == NULL) && (doc == NULL))
return(1);
if ((cur != NULL) && (cur->type == XML_NAMESPACE_DECL))
return(1);
if (doc == NULL)
doc = cur->doc;
if ((doc != NULL) && (doc->type == XML_HTML_DOCUMENT_NODE)) {
cur = doc->children;
while ((cur != NULL) && (cur->name != NULL)) {
if (cur->type != XML_ELEMENT_NODE) {
cur = cur->next;
continue;
}
if (!xmlStrcasecmp(cur->name, BAD_CAST "html")) {
cur = cur->children;
continue;
}
if (!xmlStrcasecmp(cur->name, BAD_CAST "head")) {
cur = cur->children;
continue;
}
if (!xmlStrcasecmp(cur->name, BAD_CAST "base")) {
if (xmlNodeGetAttrValue(cur, BAD_CAST "href", NULL, &ret) < 0)
return(-1);
if (ret == NULL)
return(1);
goto found;
}
cur = cur->next;
}
return(0);
}
while (cur != NULL) {
if (cur->type == XML_ENTITY_DECL) {
xmlEntityPtr ent = (xmlEntityPtr) cur;
if (ent->URI == NULL)
break;
xmlFree(ret);
ret = xmlStrdup(ent->URI);
if (ret == NULL)
return(-1);
goto found;
}
if (cur->type == XML_ELEMENT_NODE) {
if (xmlNodeGetAttrValue(cur, BAD_CAST "base", XML_XML_NAMESPACE,
&base) < 0) {
xmlFree(ret);
return(-1);
}
if (base != NULL) {
if (ret != NULL) {
res = xmlBuildURISafe(ret, base, &newbase);
xmlFree(ret);
xmlFree(base);
if (res != 0)
return(res);
ret = newbase;
} else {
ret = base;
}
if ((!xmlStrncmp(ret, BAD_CAST "http://", 7)) ||
(!xmlStrncmp(ret, BAD_CAST "ftp://", 6)) ||
(!xmlStrncmp(ret, BAD_CAST "urn:", 4)))
goto found;
}
}
cur = cur->parent;
}
if ((doc != NULL) && (doc->URL != NULL)) {
if (ret == NULL) {
ret = xmlStrdup(doc->URL);
if (ret == NULL)
return(-1);
} else {
res = xmlBuildURISafe(ret, doc->URL, &newbase);
xmlFree(ret);
if (res != 0)
return(res);
ret = newbase;
}
}
found:
*baseOut = ret;
return(0);
}
/**
* xmlNodeGetBase:
* @doc: the document the node pertains to
* @cur: the node being checked
*
* See xmlNodeGetBaseSafe. This function doesn't allow to distinguish
* memory allocation failures from a non-existing base.
*
* Returns a pointer to the base URL, or NULL if not found
* It's up to the caller to free the memory with xmlFree().
*/
xmlChar *
xmlNodeGetBase(const xmlDoc *doc, const xmlNode *cur) {
xmlChar *base;
xmlNodeGetBaseSafe(doc, cur, &base);
return(base);
}
/**
* xmlNodeBufGetContent:
* @buffer: a buffer
* @cur: the node being read
*
* Read the value of a node @cur, this can be either the text carried
* directly by this node if it's a TEXT node or the aggregate string
* of the values carried by this node child's (TEXT and ENTITY_REF).
* Entity references are substituted.
* Fills up the buffer @buffer with this value
*
* Returns 0 in case of success and -1 in case of error.
*/
int
xmlNodeBufGetContent(xmlBufferPtr buffer, const xmlNode *cur)
{
xmlBufPtr buf;
int ret;
if ((cur == NULL) || (buffer == NULL)) return(-1);
buf = xmlBufFromBuffer(buffer);
ret = xmlBufGetNodeContent(buf, cur);
buffer = xmlBufBackToBuffer(buf);
if ((ret < 0) || (buffer == NULL))
return(-1);
return(0);
}
static void
xmlBufGetEntityRefContent(xmlBufPtr buf, const xmlNode *ref) {
xmlEntityPtr ent;
if (ref->children != NULL) {
ent = (xmlEntityPtr) ref->children;
} else {
/* lookup entity declaration */
ent = xmlGetDocEntity(ref->doc, ref->name);
if (ent == NULL)
return;
}
if (ent->flags & XML_ENT_EXPANDING)
return;
ent->flags |= XML_ENT_EXPANDING;
xmlBufGetChildContent(buf, (xmlNodePtr) ent);
ent->flags &= ~XML_ENT_EXPANDING;
}
static void
xmlBufGetChildContent(xmlBufPtr buf, const xmlNode *tree) {
const xmlNode *cur = tree->children;
while (cur != NULL) {
switch (cur->type) {
case XML_TEXT_NODE:
case XML_CDATA_SECTION_NODE:
xmlBufCat(buf, cur->content);
break;
case XML_ENTITY_REF_NODE:
xmlBufGetEntityRefContent(buf, cur);
break;
default:
if (cur->children != NULL) {
cur = cur->children;
continue;
}
break;
}
while (cur->next == NULL) {
cur = cur->parent;
if (cur == tree)
return;
}
cur = cur->next;
}
}
/**
* xmlBufGetNodeContent:
* @buf: a buffer xmlBufPtr
* @cur: the node being read
*
* Read the value of a node @cur, this can be either the text carried
* directly by this node if it's a TEXT node or the aggregate string
* of the values carried by this node child's (TEXT and ENTITY_REF).
* Entity references are substituted.
* Fills up the buffer @buf with this value
*
* Returns 0 in case of success and -1 in case of error.
*/
int
xmlBufGetNodeContent(xmlBufPtr buf, const xmlNode *cur)
{
if ((cur == NULL) || (buf == NULL))
return(-1);
switch (cur->type) {
case XML_DOCUMENT_NODE:
case XML_HTML_DOCUMENT_NODE:
case XML_DOCUMENT_FRAG_NODE:
case XML_ELEMENT_NODE:
case XML_ATTRIBUTE_NODE:
case XML_ENTITY_DECL:
xmlBufGetChildContent(buf, cur);
break;
case XML_CDATA_SECTION_NODE:
case XML_TEXT_NODE:
case XML_COMMENT_NODE:
case XML_PI_NODE:
xmlBufCat(buf, cur->content);
break;
case XML_ENTITY_REF_NODE:
xmlBufGetEntityRefContent(buf, cur);
break;
case XML_NAMESPACE_DECL:
xmlBufCat(buf, ((xmlNsPtr) cur)->href);
break;
default:
break;
}
return(0);
}
/**
* xmlNodeGetContent:
* @cur: the node being read
*
* Read the value of a node, this can be either the text carried
* directly by this node if it's a TEXT node or the aggregate string
* of the values carried by this node child's (TEXT and ENTITY_REF).
* Entity references are substituted.
* Returns a new #xmlChar * or NULL if no content is available.
* It's up to the caller to free the memory with xmlFree().
*/
xmlChar *
xmlNodeGetContent(const xmlNode *cur)
{
xmlBufPtr buf;
xmlChar *ret;
if (cur == NULL)
return (NULL);
switch (cur->type) {
case XML_DOCUMENT_NODE:
case XML_HTML_DOCUMENT_NODE:
case XML_ENTITY_REF_NODE:
break;
case XML_DOCUMENT_FRAG_NODE:
case XML_ELEMENT_NODE:
case XML_ATTRIBUTE_NODE:
case XML_ENTITY_DECL: {
xmlNodePtr children = cur->children;
if (children == NULL)
return(xmlStrdup(BAD_CAST ""));
/* Optimization for single text children */
if (((children->type == XML_TEXT_NODE) ||
(children->type == XML_CDATA_SECTION_NODE)) &&
(children->next == NULL)) {
if (children->content == NULL)
return(xmlStrdup(BAD_CAST ""));
return(xmlStrdup(children->content));
}
break;
}
case XML_CDATA_SECTION_NODE:
case XML_TEXT_NODE:
case XML_COMMENT_NODE:
case XML_PI_NODE:
if (cur->content != NULL)
return(xmlStrdup(cur->content));
else
return(xmlStrdup(BAD_CAST ""));
case XML_NAMESPACE_DECL:
return(xmlStrdup(((xmlNsPtr) cur)->href));
default:
return(NULL);
}
buf = xmlBufCreateSize(64);
if (buf == NULL)
return (NULL);
xmlBufSetAllocationScheme(buf, XML_BUFFER_ALLOC_DOUBLEIT);
xmlBufGetNodeContent(buf, cur);
ret = xmlBufDetach(buf);
xmlBufFree(buf);
return(ret);
}
static int
xmlNodeSetContentInternal(xmlNodePtr cur, const xmlChar *content, int len) {
if (cur == NULL) {
return(1);
}
switch (cur->type) {
case XML_DOCUMENT_FRAG_NODE:
case XML_ELEMENT_NODE:
case XML_ATTRIBUTE_NODE:
if (xmlNodeParseContent(cur, content, len) < 0)
return(-1);
break;
case XML_TEXT_NODE:
case XML_CDATA_SECTION_NODE:
case XML_PI_NODE:
case XML_COMMENT_NODE: {
xmlChar *copy = NULL;
if (content != NULL) {
if (len < 0)
copy = xmlStrdup(content);
else
copy = xmlStrndup(content, len);
if (copy == NULL)
return(-1);
}
xmlTextSetContent(cur, copy);
break;
}
default:
break;
}
return(0);
}
/**
* xmlNodeSetContent:
* @cur: the node being modified
* @content: the new value of the content
*
* Replace the text content of a node.
*
* Sets the raw text content of text, CDATA, comment or PI nodes.
*
* For element and attribute nodes, removes all children and
* replaces them by parsing @content which is expected to be a
* valid XML attribute value possibly containing character and
* entity references. Syntax errors and references to undeclared
* entities are ignored silently. Unfortunately, there isn't an
* API to pass raw content directly. An inefficient work-around
* is to escape the content with xmlEncodeSpecialChars before
* passing it. A better trick is clearing the old content
* with xmlNodeSetContent(node, NULL) first and then calling
* xmlNodeAddContent(node, content). Unlike this function,
* xmlNodeAddContent accepts raw text.
*
* Returns 0 on success, 1 on error, -1 if a memory allocation failed.
*/
int
xmlNodeSetContent(xmlNodePtr cur, const xmlChar *content) {
return(xmlNodeSetContentInternal(cur, content, -1));
}
#ifdef LIBXML_TREE_ENABLED
/**
* xmlNodeSetContentLen:
* @cur: the node being modified
* @content: the new value of the content
* @len: the size of @content
*
* See xmlNodeSetContent.
*
* Returns 0 on success, 1 on error, -1 if a memory allocation failed.
*/
int
xmlNodeSetContentLen(xmlNodePtr cur, const xmlChar *content, int len) {
return(xmlNodeSetContentInternal(cur, content, len));
}
#endif /* LIBXML_TREE_ENABLED */
/**
* xmlNodeAddContentLen:
* @cur: the node being modified
* @content: extra content
* @len: the size of @content
*
* Append the extra substring to the node content.
* NOTE: In contrast to xmlNodeSetContentLen(), @content is supposed to be
* raw text, so unescaped XML special chars are allowed, entity
* references are not supported.
*
* Returns 0 on success, 1 on error, -1 if a memory allocation failed.
*/
int
xmlNodeAddContentLen(xmlNodePtr cur, const xmlChar *content, int len) {
if (cur == NULL)
return(1);
if ((content == NULL) || (len <= 0))
return(0);
switch (cur->type) {
case XML_DOCUMENT_FRAG_NODE:
case XML_ELEMENT_NODE: {
xmlNodePtr newNode, tmp;
newNode = xmlNewDocTextLen(cur->doc, content, len);
if (newNode == NULL)
return(-1);
tmp = xmlAddChild(cur, newNode);
if (tmp == NULL) {
xmlFreeNode(newNode);
return(-1);
}
break;
}
case XML_ATTRIBUTE_NODE:
break;
case XML_TEXT_NODE:
case XML_CDATA_SECTION_NODE:
case XML_PI_NODE:
case XML_COMMENT_NODE:
return(xmlTextAddContent(cur, content, len));
default:
break;
}
return(0);
}
/**
* xmlNodeAddContent:
* @cur: the node being modified
* @content: extra content
*
* Append the extra substring to the node content.
* NOTE: In contrast to xmlNodeSetContent(), @content is supposed to be
* raw text, so unescaped XML special chars are allowed, entity
* references are not supported.
*
* Returns 0 on success, 1 on error, -1 if a memory allocation failed.
*/
int
xmlNodeAddContent(xmlNodePtr cur, const xmlChar *content) {
return(xmlNodeAddContentLen(cur, content, xmlStrlen(content)));
}
/**
* xmlTextMerge:
* @first: the first text node
* @second: the second text node being merged
*
* Merge the second text node into the first. The second node is
* unlinked and freed.
*
* Returns the first text node augmented or NULL in case of error.
*/
xmlNodePtr
xmlTextMerge(xmlNodePtr first, xmlNodePtr second) {
if ((first == NULL) || (first->type != XML_TEXT_NODE) ||
(second == NULL) || (second->type != XML_TEXT_NODE) ||
(first == second) ||
(first->name != second->name))
return(NULL);
if (xmlTextAddContent(first, second->content, -1) < 0)
return(NULL);
xmlUnlinkNodeInternal(second);
xmlFreeNode(second);
return(first);
}
#if defined(LIBXML_TREE_ENABLED) || defined(LIBXML_XPATH_ENABLED) || defined(LIBXML_SCHEMAS_ENABLED)
/**
* xmlGetNsListSafe:
* @doc: the document
* @node: the current node
* @out: the returned namespace array
*
* Find all in-scope namespaces of a node. @out returns a NULL
* terminated array of namespace pointers that must be freed by
* the caller.
*
* Returns 0 on success, 1 if no namespaces were found, -1 if a
* memory allocation failed.
*/
int
xmlGetNsListSafe(const xmlDoc *doc ATTRIBUTE_UNUSED, const xmlNode *node,
xmlNsPtr **out)
{
xmlNsPtr cur;
xmlNsPtr *namespaces = NULL;
int nbns = 0;
int maxns = 0;
int i;
if (out == NULL)
return(1);
*out = NULL;
if ((node == NULL) || (node->type == XML_NAMESPACE_DECL))
return(1);
while (node != NULL) {
if (node->type == XML_ELEMENT_NODE) {
cur = node->nsDef;
while (cur != NULL) {
for (i = 0; i < nbns; i++) {
if ((cur->prefix == namespaces[i]->prefix) ||
(xmlStrEqual(cur->prefix, namespaces[i]->prefix)))
break;
}
if (i >= nbns) {
if (nbns >= maxns) {
xmlNsPtr *tmp;
maxns = maxns ? maxns * 2 : 10;
tmp = (xmlNsPtr *) xmlRealloc(namespaces,
(maxns + 1) *
sizeof(xmlNsPtr));
if (tmp == NULL) {
xmlFree(namespaces);
return(-1);
}
namespaces = tmp;
}
namespaces[nbns++] = cur;
namespaces[nbns] = NULL;
}
cur = cur->next;
}
}
node = node->parent;
}
*out = namespaces;
return((namespaces == NULL) ? 1 : 0);
}
/**
* xmlGetNsList:
* @doc: the document
* @node: the current node
*
* Find all in-scope namespaces of a node.
*
* Use xmlGetNsListSafe for better error reporting.
*
* Returns a NULL terminated array of namespace pointers that must
* be freed by the caller or NULL if no namespaces were found or
* a memory allocation failed.
*/
xmlNsPtr *
xmlGetNsList(const xmlDoc *doc, const xmlNode *node)
{
xmlNsPtr *ret;
xmlGetNsListSafe(doc, node, &ret);
return(ret);
}
#endif /* LIBXML_TREE_ENABLED */
static xmlNsPtr
xmlNewXmlNs(void) {
xmlNsPtr ns;
ns = (xmlNsPtr) xmlMalloc(sizeof(xmlNs));
if (ns == NULL)
return(NULL);
memset(ns, 0, sizeof(xmlNs));
ns->type = XML_LOCAL_NAMESPACE;
ns->href = xmlStrdup(XML_XML_NAMESPACE);
if (ns->href == NULL) {
xmlFreeNs(ns);
return(NULL);
}
ns->prefix = xmlStrdup(BAD_CAST "xml");
if (ns->prefix == NULL) {
xmlFreeNs(ns);
return(NULL);
}
return(ns);
}
/*
* xmlTreeEnsureXMLDecl:
* @doc: the doc
*
* Ensures that there is an XML namespace declaration on the doc.
*
* Returns the XML ns-struct or NULL if a memory allocation failed.
*/
static xmlNsPtr
xmlTreeEnsureXMLDecl(xmlDocPtr doc)
{
xmlNsPtr ns;
ns = doc->oldNs;
if (ns != NULL)
return (ns);
ns = xmlNewXmlNs();
doc->oldNs = ns;
return(ns);
}
int
xmlSearchNsSafe(xmlNodePtr node, const xmlChar *prefix,
xmlNsPtr *out) {
xmlNsPtr cur;
xmlDocPtr doc;
xmlNodePtr orig = node;
xmlNodePtr parent;
if (out == NULL)
return(1);
*out = NULL;
if ((node == NULL) || (node->type == XML_NAMESPACE_DECL))
return(1);
doc = node->doc;
if ((doc != NULL) && (IS_STR_XML(prefix))) {
cur = xmlTreeEnsureXMLDecl(doc);
if (cur == NULL)
return(-1);
*out = cur;
return(0);
}
while (node->type != XML_ELEMENT_NODE) {
node = node->parent;
if (node == NULL)
return(0);
}
parent = node;
while ((node != NULL) && (node->type == XML_ELEMENT_NODE)) {
cur = node->nsDef;
while (cur != NULL) {
if ((xmlStrEqual(cur->prefix, prefix)) &&
(cur->href != NULL)) {
*out = cur;
return(0);
}
cur = cur->next;
}
if (orig != node) {
cur = node->ns;
if ((cur != NULL) &&
(xmlStrEqual(cur->prefix, prefix)) &&
(cur->href != NULL)) {
*out = cur;
return(0);
}
}
node = node->parent;
}
/*
* The XML-1.0 namespace is normally held on the document
* element. In this case exceptionally create it on the
* node element.
*/
if ((doc == NULL) && (IS_STR_XML(prefix))) {
cur = xmlNewXmlNs();
if (cur == NULL)
return(-1);
cur->next = parent->nsDef;
parent->nsDef = cur;
*out = cur;
}
return(0);
}
/**
* xmlSearchNs:
* @doc: the document
* @node: the current node
* @nameSpace: the namespace prefix
*
* Search a Ns registered under a given name space for a document.
* recurse on the parents until it finds the defined namespace
* or return NULL otherwise.
* @nameSpace can be NULL, this is a search for the default namespace.
* We don't allow to cross entities boundaries. If you don't declare
* the namespace within those you will be in troubles !!! A warning
* is generated to cover this case.
*
* Returns the namespace pointer or NULL if no namespace was found or
* a memory allocation failed. Allocations can only fail if the "xml"
* namespace is queried.
*/
xmlNsPtr
xmlSearchNs(xmlDocPtr doc ATTRIBUTE_UNUSED, xmlNodePtr node,
const xmlChar *nameSpace) {
xmlNsPtr cur;
xmlSearchNsSafe(node, nameSpace, &cur);
return(cur);
}
/**
* xmlNsInScope:
* @doc: the document
* @node: the current node
* @ancestor: the ancestor carrying the namespace
* @prefix: the namespace prefix
*
* Verify that the given namespace held on @ancestor is still in scope
* on node.
*
* Returns 1 if true, 0 if false and -1 in case of error.
*/
static int
xmlNsInScope(xmlDocPtr doc ATTRIBUTE_UNUSED, xmlNodePtr node,
xmlNodePtr ancestor, const xmlChar * prefix)
{
xmlNsPtr tst;
while ((node != NULL) && (node != ancestor)) {
if ((node->type == XML_ENTITY_REF_NODE) ||
(node->type == XML_ENTITY_DECL))
return (-1);
if (node->type == XML_ELEMENT_NODE) {
tst = node->nsDef;
while (tst != NULL) {
if ((tst->prefix == NULL)
&& (prefix == NULL))
return (0);
if ((tst->prefix != NULL)
&& (prefix != NULL)
&& (xmlStrEqual(tst->prefix, prefix)))
return (0);
tst = tst->next;
}
}
node = node->parent;
}
if (node != ancestor)
return (-1);
return (1);
}
int
xmlSearchNsByHrefSafe(xmlNodePtr node, const xmlChar *href,
xmlNsPtr *out) {
xmlNsPtr cur;
xmlDocPtr doc;
xmlNodePtr orig = node;
xmlNodePtr parent;
int is_attr;
if (out == NULL)
return(1);
*out = NULL;
if ((node == NULL) || (node->type == XML_NAMESPACE_DECL))
return(1);
doc = node->doc;
if ((doc != NULL) && (xmlStrEqual(href, XML_XML_NAMESPACE))) {
cur = xmlTreeEnsureXMLDecl(doc);
if (cur == NULL)
return(-1);
*out = cur;
return(0);
}
is_attr = (node->type == XML_ATTRIBUTE_NODE);
while (node->type != XML_ELEMENT_NODE) {
node = node->parent;
if (node == NULL)
return(0);
}
parent = node;
while ((node != NULL) && (node->type == XML_ELEMENT_NODE)) {
cur = node->nsDef;
while (cur != NULL) {
if (xmlStrEqual(cur->href, href)) {
if (((!is_attr) || (cur->prefix != NULL)) &&
(xmlNsInScope(doc, orig, node, cur->prefix) == 1)) {
*out = cur;
return(0);
}
}
cur = cur->next;
}
if (orig != node) {
cur = node->ns;
if (cur != NULL) {
if (xmlStrEqual(cur->href, href)) {
if (((!is_attr) || (cur->prefix != NULL)) &&
(xmlNsInScope(doc, orig, node,
cur->prefix) == 1)) {
*out = cur;
return(0);
}
}
}
}
node = node->parent;
}
/*
* The XML-1.0 namespace is normally held on the document
* element. In this case exceptionally create it on the
* node element.
*/
if ((doc == NULL) && (xmlStrEqual(href, XML_XML_NAMESPACE))) {
cur = xmlNewXmlNs();
if (cur == NULL)
return(-1);
cur->next = parent->nsDef;
parent->nsDef = cur;
*out = cur;
}
return(0);
}
/**
* xmlSearchNsByHref:
* @doc: the document
* @node: the current node
* @href: the namespace value
*
* Search a Ns aliasing a given URI. Recurse on the parents until it finds
* the defined namespace or return NULL otherwise.
*
* Returns the namespace pointer or NULL if no namespace was found or
* a memory allocation failed. Allocations can only fail if the "xml"
* namespace is queried.
*/
xmlNsPtr
xmlSearchNsByHref(xmlDocPtr doc ATTRIBUTE_UNUSED, xmlNodePtr node,
const xmlChar * href) {
xmlNsPtr cur;
xmlSearchNsByHrefSafe(node, href, &cur);
return(cur);
}
/**
* xmlNewReconciledNs:
* @doc: the document
* @tree: a node expected to hold the new namespace
* @ns: the original namespace
*
* This function tries to locate a namespace definition in a tree
* ancestors, or create a new namespace definition node similar to
* @ns trying to reuse the same prefix. However if the given prefix is
* null (default namespace) or reused within the subtree defined by
* @tree or on one of its ancestors then a new prefix is generated.
* Returns the (new) namespace definition or NULL in case of error
*/
static xmlNsPtr
xmlNewReconciledNs(xmlNodePtr tree, xmlNsPtr ns) {
xmlNsPtr def;
xmlChar prefix[50];
int counter = 1;
int res;
if ((tree == NULL) || (tree->type != XML_ELEMENT_NODE)) {
return(NULL);
}
if ((ns == NULL) || (ns->type != XML_NAMESPACE_DECL)) {
return(NULL);
}
/*
* Search an existing namespace definition inherited.
*/
res = xmlSearchNsByHrefSafe(tree, ns->href, &def);
if (res < 0)
return(NULL);
if (def != NULL)
return(def);
/*
* Find a close prefix which is not already in use.
* Let's strip namespace prefixes longer than 20 chars !
*/
if (ns->prefix == NULL)
snprintf((char *) prefix, sizeof(prefix), "default");
else
snprintf((char *) prefix, sizeof(prefix), "%.20s", (char *)ns->prefix);
res = xmlSearchNsSafe(tree, prefix, &def);
if (res < 0)
return(NULL);
while (def != NULL) {
if (counter > 1000) return(NULL);
if (ns->prefix == NULL)
snprintf((char *) prefix, sizeof(prefix), "default%d", counter++);
else
snprintf((char *) prefix, sizeof(prefix), "%.20s%d",
(char *)ns->prefix, counter++);
res = xmlSearchNsSafe(tree, prefix, &def);
if (res < 0)
return(NULL);
}
/*
* OK, now we are ready to create a new one.
*/
def = xmlNewNs(tree, ns->href, prefix);
return(def);
}
#ifdef LIBXML_TREE_ENABLED
typedef struct {
xmlNsPtr oldNs;
xmlNsPtr newNs;
} xmlNsCache;
/**
* xmlReconciliateNs:
* @doc: the document
* @tree: a node defining the subtree to reconciliate
*
* This function checks that all the namespaces declared within the given
* tree are properly declared. This is needed for example after Copy or Cut
* and then paste operations. The subtree may still hold pointers to
* namespace declarations outside the subtree or invalid/masked. As much
* as possible the function try to reuse the existing namespaces found in
* the new environment. If not possible the new namespaces are redeclared
* on @tree at the top of the given subtree.
*
* Returns 0 on success or -1 in case of error.
*/
int
xmlReconciliateNs(xmlDocPtr doc, xmlNodePtr tree) {
xmlNsCache *cache = NULL;
int sizeCache = 0;
int nbCache = 0;
xmlNsPtr n;
xmlNodePtr node = tree;
xmlAttrPtr attr;
int ret = 0, i;
if ((node == NULL) || (node->type != XML_ELEMENT_NODE)) return(-1);
if (node->doc != doc) return(-1);
while (node != NULL) {
/*
* Reconciliate the node namespace
*/
if (node->ns != NULL) {
for (i = 0; i < nbCache; i++) {
if (cache[i].oldNs == node->ns) {
node->ns = cache[i].newNs;
break;
}
}
if (i == nbCache) {
/*
* OK we need to recreate a new namespace definition
*/
n = xmlNewReconciledNs(tree, node->ns);
if (n == NULL) {
ret = -1;
} else {
/*
* check if we need to grow the cache buffers.
*/
if (sizeCache <= nbCache) {
xmlNsCache *tmp;
size_t newSize = sizeCache ? sizeCache * 2 : 10;
tmp = xmlRealloc(cache, newSize * sizeof(tmp[0]));
if (tmp == NULL) {
ret = -1;
} else {
cache = tmp;
sizeCache = newSize;
}
}
if (nbCache < sizeCache) {
cache[nbCache].newNs = n;
cache[nbCache++].oldNs = node->ns;
}
}
node->ns = n;
}
}
/*
* now check for namespace held by attributes on the node.
*/
if (node->type == XML_ELEMENT_NODE) {
attr = node->properties;
while (attr != NULL) {
if (attr->ns != NULL) {
for (i = 0; i < nbCache; i++) {
if (cache[i].oldNs == attr->ns) {
attr->ns = cache[i].newNs;
break;
}
}
if (i == nbCache) {
/*
* OK we need to recreate a new namespace definition
*/
n = xmlNewReconciledNs(tree, attr->ns);
if (n == NULL) {
ret = -1;
} else {
/*
* check if we need to grow the cache buffers.
*/
if (sizeCache <= nbCache) {
xmlNsCache *tmp;
size_t newSize = sizeCache ?
sizeCache * 2 : 10;
tmp = xmlRealloc(cache,
newSize * sizeof(tmp[0]));
if (tmp == NULL) {
ret = -1;
} else {
cache = tmp;
sizeCache = newSize;
}
}
if (nbCache < sizeCache) {
cache[nbCache].newNs = n;
cache[nbCache++].oldNs = attr->ns;
}
}
attr->ns = n;
}
}
attr = attr->next;
}
}
/*
* Browse the full subtree, deep first
*/
if ((node->children != NULL) && (node->type != XML_ENTITY_REF_NODE)) {
/* deep first */
node = node->children;
} else if ((node != tree) && (node->next != NULL)) {
/* then siblings */
node = node->next;
} else if (node != tree) {
/* go up to parents->next if needed */
while (node != tree) {
if (node->parent != NULL)
node = node->parent;
if ((node != tree) && (node->next != NULL)) {
node = node->next;
break;
}
if (node->parent == NULL) {
node = NULL;
break;
}
}
/* exit condition */
if (node == tree)
node = NULL;
} else
break;
}
if (cache != NULL)
xmlFree(cache);
return(ret);
}
#endif /* LIBXML_TREE_ENABLED */
static xmlAttrPtr
xmlGetPropNodeInternal(const xmlNode *node, const xmlChar *name,
const xmlChar *nsName, int useDTD)
{
xmlAttrPtr prop;
/* Avoid unused variable warning if features are disabled. */
(void) useDTD;
if ((node == NULL) || (node->type != XML_ELEMENT_NODE) || (name == NULL))
return(NULL);
if (node->properties != NULL) {
prop = node->properties;
if (nsName == NULL) {
/*
* We want the attr to be in no namespace.
*/
do {
if ((prop->ns == NULL) && xmlStrEqual(prop->name, name)) {
return(prop);
}
prop = prop->next;
} while (prop != NULL);
} else {
/*
* We want the attr to be in the specified namespace.
*/
do {
if ((prop->ns != NULL) && xmlStrEqual(prop->name, name) &&
((prop->ns->href == nsName) ||
xmlStrEqual(prop->ns->href, nsName)))
{
return(prop);
}
prop = prop->next;
} while (prop != NULL);
}
}
#ifdef LIBXML_TREE_ENABLED
if (! useDTD)
return(NULL);
/*
* Check if there is a default/fixed attribute declaration in
* the internal or external subset.
*/
if ((node->doc != NULL) && (node->doc->intSubset != NULL)) {
xmlDocPtr doc = node->doc;
xmlAttributePtr attrDecl = NULL;
xmlChar *elemQName, *tmpstr = NULL;
/*
* We need the QName of the element for the DTD-lookup.
*/
if ((node->ns != NULL) && (node->ns->prefix != NULL)) {
tmpstr = xmlStrdup(node->ns->prefix);
if (tmpstr == NULL)
return(NULL);
tmpstr = xmlStrcat(tmpstr, BAD_CAST ":");
if (tmpstr == NULL)
return(NULL);
tmpstr = xmlStrcat(tmpstr, node->name);
if (tmpstr == NULL)
return(NULL);
elemQName = tmpstr;
} else
elemQName = (xmlChar *) node->name;
if (nsName == NULL) {
/*
* The common and nice case: Attr in no namespace.
*/
attrDecl = xmlGetDtdQAttrDesc(doc->intSubset,
elemQName, name, NULL);
if ((attrDecl == NULL) && (doc->extSubset != NULL)) {
attrDecl = xmlGetDtdQAttrDesc(doc->extSubset,
elemQName, name, NULL);
}
} else if (xmlStrEqual(nsName, XML_XML_NAMESPACE)) {
/*
* The XML namespace must be bound to prefix 'xml'.
*/
attrDecl = xmlGetDtdQAttrDesc(doc->intSubset,
elemQName, name, BAD_CAST "xml");
if ((attrDecl == NULL) && (doc->extSubset != NULL)) {
attrDecl = xmlGetDtdQAttrDesc(doc->extSubset,
elemQName, name, BAD_CAST "xml");
}
} else {
xmlNsPtr *nsList, *cur;
/*
* The ugly case: Search using the prefixes of in-scope
* ns-decls corresponding to @nsName.
*/
nsList = xmlGetNsList(node->doc, node);
if (nsList == NULL) {
if (tmpstr != NULL)
xmlFree(tmpstr);
return(NULL);
}
cur = nsList;
while (*cur != NULL) {
if (xmlStrEqual((*cur)->href, nsName)) {
attrDecl = xmlGetDtdQAttrDesc(doc->intSubset, elemQName,
name, (*cur)->prefix);
if (attrDecl)
break;
if (doc->extSubset != NULL) {
attrDecl = xmlGetDtdQAttrDesc(doc->extSubset, elemQName,
name, (*cur)->prefix);
if (attrDecl)
break;
}
}
cur++;
}
xmlFree(nsList);
}
if (tmpstr != NULL)
xmlFree(tmpstr);
/*
* Only default/fixed attrs are relevant.
*/
if ((attrDecl != NULL) && (attrDecl->defaultValue != NULL))
return((xmlAttrPtr) attrDecl);
}
#endif /* LIBXML_TREE_ENABLED */
return(NULL);
}
static xmlChar*
xmlGetPropNodeValueInternal(const xmlAttr *prop)
{
if (prop == NULL)
return(NULL);
if (prop->type == XML_ATTRIBUTE_NODE) {
return(xmlNodeGetContent((xmlNodePtr) prop));
} else if (prop->type == XML_ATTRIBUTE_DECL) {
return(xmlStrdup(((xmlAttributePtr)prop)->defaultValue));
}
return(NULL);
}
/**
* xmlHasProp:
* @node: the node
* @name: the attribute name
*
* Search an attribute associated to a node
* This function also looks in DTD attribute declaration for #FIXED or
* default declaration values.
*
* Returns the attribute or the attribute declaration or NULL if
* neither was found. Also returns NULL if a memory allocation failed
* making this function unreliable.
*/
xmlAttrPtr
xmlHasProp(const xmlNode *node, const xmlChar *name) {
xmlAttrPtr prop;
xmlDocPtr doc;
if ((node == NULL) || (node->type != XML_ELEMENT_NODE) || (name == NULL))
return(NULL);
/*
* Check on the properties attached to the node
*/
prop = node->properties;
while (prop != NULL) {
if (xmlStrEqual(prop->name, name)) {
return(prop);
}
prop = prop->next;
}
/*
* Check if there is a default declaration in the internal
* or external subsets
*/
doc = node->doc;
if (doc != NULL) {
xmlAttributePtr attrDecl;
if (doc->intSubset != NULL) {
attrDecl = xmlGetDtdAttrDesc(doc->intSubset, node->name, name);
if ((attrDecl == NULL) && (doc->extSubset != NULL))
attrDecl = xmlGetDtdAttrDesc(doc->extSubset, node->name, name);
if ((attrDecl != NULL) && (attrDecl->defaultValue != NULL))
/* return attribute declaration only if a default value is given
(that includes #FIXED declarations) */
return((xmlAttrPtr) attrDecl);
}
}
return(NULL);
}
/**
* xmlHasNsProp:
* @node: the node
* @name: the attribute name
* @nameSpace: the URI of the namespace
*
* Search for an attribute associated to a node
* This attribute has to be anchored in the namespace specified.
* This does the entity substitution.
* This function looks in DTD attribute declaration for #FIXED or
* default declaration values.
* Note that a namespace of NULL indicates to use the default namespace.
*
* Returns the attribute or the attribute declaration or NULL if
* neither was found. Also returns NULL if a memory allocation failed
* making this function unreliable.
*/
xmlAttrPtr
xmlHasNsProp(const xmlNode *node, const xmlChar *name, const xmlChar *nameSpace) {
return(xmlGetPropNodeInternal(node, name, nameSpace, 1));
}
/**
* xmlNodeGetAttrValue:
* @node: the node
* @name: the attribute name
* @nsUri: the URI of the namespace
* @out: the returned string
*
* Search and get the value of an attribute associated to a node
* This attribute has to be anchored in the namespace specified.
* This does the entity substitution. The returned value must be
* freed by the caller.
*
* Returns 0 on success, 1 if no attribute was found, -1 if a
* memory allocation failed.
*/
int
xmlNodeGetAttrValue(const xmlNode *node, const xmlChar *name,
const xmlChar *nsUri, xmlChar **out) {
xmlAttrPtr prop;
if (out == NULL)
return(1);
*out = NULL;
prop = xmlGetPropNodeInternal(node, name, nsUri, 0);
if (prop == NULL)
return(1);
*out = xmlGetPropNodeValueInternal(prop);
if (*out == NULL)
return(-1);
return(0);
}
/**
* xmlGetProp:
* @node: the node
* @name: the attribute name
*
* Search and get the value of an attribute associated to a node
* This does the entity substitution.
* This function looks in DTD attribute declaration for #FIXED or
* default declaration values.
*
* NOTE: This function acts independently of namespaces associated
* to the attribute. Use xmlGetNsProp() or xmlGetNoNsProp()
* for namespace aware processing.
*
* NOTE: This function doesn't allow to distinguish malloc failures from
* missing attributes. It's more robust to use xmlNodeGetAttrValue.
*
* Returns the attribute value or NULL if not found or a memory allocation
* failed. It's up to the caller to free the memory with xmlFree().
*/
xmlChar *
xmlGetProp(const xmlNode *node, const xmlChar *name) {
xmlAttrPtr prop;
prop = xmlHasProp(node, name);
if (prop == NULL)
return(NULL);
return(xmlGetPropNodeValueInternal(prop));
}
/**
* xmlGetNoNsProp:
* @node: the node
* @name: the attribute name
*
* Search and get the value of an attribute associated to a node
* This does the entity substitution.
* This function looks in DTD attribute declaration for #FIXED or
* default declaration values.
* This function is similar to xmlGetProp except it will accept only
* an attribute in no namespace.
*
* NOTE: This function doesn't allow to distinguish malloc failures from
* missing attributes. It's more robust to use xmlNodeGetAttrValue.
*
* Returns the attribute value or NULL if not found or a memory allocation
* failed. It's up to the caller to free the memory with xmlFree().
*/
xmlChar *
xmlGetNoNsProp(const xmlNode *node, const xmlChar *name) {
xmlAttrPtr prop;
prop = xmlGetPropNodeInternal(node, name, NULL, 1);
if (prop == NULL)
return(NULL);
return(xmlGetPropNodeValueInternal(prop));
}
/**
* xmlGetNsProp:
* @node: the node
* @name: the attribute name
* @nameSpace: the URI of the namespace
*
* Search and get the value of an attribute associated to a node
* This attribute has to be anchored in the namespace specified.
* This does the entity substitution.
* This function looks in DTD attribute declaration for #FIXED or
* default declaration values.
*
* NOTE: This function doesn't allow to distinguish malloc failures from
* missing attributes. It's more robust to use xmlNodeGetAttrValue.
*
* Returns the attribute value or NULL if not found or a memory allocation
* failed. It's up to the caller to free the memory with xmlFree().
*/
xmlChar *
xmlGetNsProp(const xmlNode *node, const xmlChar *name, const xmlChar *nameSpace) {
xmlAttrPtr prop;
prop = xmlGetPropNodeInternal(node, name, nameSpace, 1);
if (prop == NULL)
return(NULL);
return(xmlGetPropNodeValueInternal(prop));
}
#if defined(LIBXML_TREE_ENABLED) || defined(LIBXML_SCHEMAS_ENABLED)
/**
* xmlUnsetProp:
* @node: the node
* @name: the attribute name
*
* Remove an attribute carried by a node.
* This handles only attributes in no namespace.
* Returns 0 if successful, -1 if not found
*/
int
xmlUnsetProp(xmlNodePtr node, const xmlChar *name) {
xmlAttrPtr prop;
prop = xmlGetPropNodeInternal(node, name, NULL, 0);
if (prop == NULL)
return(-1);
xmlUnlinkNodeInternal((xmlNodePtr) prop);
xmlFreeProp(prop);
return(0);
}
/**
* xmlUnsetNsProp:
* @node: the node
* @ns: the namespace definition
* @name: the attribute name
*
* Remove an attribute carried by a node.
* Returns 0 if successful, -1 if not found
*/
int
xmlUnsetNsProp(xmlNodePtr node, xmlNsPtr ns, const xmlChar *name) {
xmlAttrPtr prop;
prop = xmlGetPropNodeInternal(node, name,
(ns != NULL) ? ns->href : NULL, 0);
if (prop == NULL)
return(-1);
xmlUnlinkNodeInternal((xmlNodePtr) prop);
xmlFreeProp(prop);
return(0);
}
#endif
#if defined(LIBXML_TREE_ENABLED) || defined(LIBXML_XINCLUDE_ENABLED) || defined(LIBXML_SCHEMAS_ENABLED) || defined(LIBXML_HTML_ENABLED)
/**
* xmlSetProp:
* @node: the node
* @name: the attribute name (a QName)
* @value: the attribute value
*
* Set (or reset) an attribute carried by a node.
* If @name has a prefix, then the corresponding
* namespace-binding will be used, if in scope; it is an
* error it there's no such ns-binding for the prefix in
* scope.
* Returns the attribute pointer.
*
*/
xmlAttrPtr
xmlSetProp(xmlNodePtr node, const xmlChar *name, const xmlChar *value) {
xmlNsPtr ns = NULL;
const xmlChar *localname;
xmlChar *prefix;
int res;
if ((node == NULL) || (name == NULL) || (node->type != XML_ELEMENT_NODE))
return(NULL);
/*
* handle QNames
*/
localname = xmlSplitQName4(name, &prefix);
if (localname == NULL)
return(NULL);
if (prefix != NULL) {
res = xmlSearchNsSafe(node, prefix, &ns);
xmlFree(prefix);
if (res < 0)
return(NULL);
if (ns != NULL)
return(xmlSetNsProp(node, ns, localname, value));
}
return(xmlSetNsProp(node, NULL, name, value));
}
/**
* xmlSetNsProp:
* @node: the node
* @ns: the namespace definition
* @name: the attribute name
* @value: the attribute value
*
* Set (or reset) an attribute carried by a node.
* The ns structure must be in scope, this is not checked
*
* Returns the attribute pointer.
*/
xmlAttrPtr
xmlSetNsProp(xmlNodePtr node, xmlNsPtr ns, const xmlChar *name,
const xmlChar *value)
{
xmlAttrPtr prop;
if (ns && (ns->href == NULL))
return(NULL);
if (name == NULL)
return(NULL);
prop = xmlGetPropNodeInternal(node, name,
(ns != NULL) ? ns->href : NULL, 0);
if (prop != NULL) {
xmlNodePtr children = NULL;
/*
* Modify the attribute's value.
*/
if (value != NULL) {
children = xmlNewDocText(node->doc, value);
if (children == NULL)
return(NULL);
}
if (prop->atype == XML_ATTRIBUTE_ID) {
xmlRemoveID(node->doc, prop);
prop->atype = XML_ATTRIBUTE_ID;
}
if (prop->children != NULL)
xmlFreeNodeList(prop->children);
prop->children = NULL;
prop->last = NULL;
prop->ns = ns;
if (value != NULL) {
xmlNodePtr tmp;
prop->children = children;
prop->last = NULL;
tmp = prop->children;
while (tmp != NULL) {
tmp->parent = (xmlNodePtr) prop;
if (tmp->next == NULL)
prop->last = tmp;
tmp = tmp->next;
}
}
if ((prop->atype == XML_ATTRIBUTE_ID) &&
(xmlAddIDSafe(prop, value) < 0)) {
return(NULL);
}
return(prop);
}
/*
* No equal attr found; create a new one.
*/
return(xmlNewPropInternal(node, ns, name, value, 0));
}
#endif /* LIBXML_TREE_ENABLED */
/**
* xmlNodeIsText:
* @node: the node
*
* Is this node a Text node ?
* Returns 1 yes, 0 no
*/
int
xmlNodeIsText(const xmlNode *node) {
if (node == NULL) return(0);
if (node->type == XML_TEXT_NODE) return(1);
return(0);
}
/**
* xmlIsBlankNode:
* @node: the node
*
* Checks whether this node is an empty or whitespace only
* (and possibly ignorable) text-node.
*
* Returns 1 yes, 0 no
*/
int
xmlIsBlankNode(const xmlNode *node) {
const xmlChar *cur;
if (node == NULL) return(0);
if ((node->type != XML_TEXT_NODE) &&
(node->type != XML_CDATA_SECTION_NODE))
return(0);
if (node->content == NULL) return(1);
cur = node->content;
while (*cur != 0) {
if (!IS_BLANK_CH(*cur)) return(0);
cur++;
}
return(1);
}
/**
* xmlTextConcat:
* @node: the node
* @content: the content
* @len: @content length
*
* Concat the given string at the end of the existing node content.
*
* If @len is -1, the string length will be calculated.
*
* Returns -1 in case of error, 0 otherwise
*/
int
xmlTextConcat(xmlNodePtr node, const xmlChar *content, int len) {
if (node == NULL)
return(-1);
if ((node->type != XML_TEXT_NODE) &&
(node->type != XML_CDATA_SECTION_NODE) &&
(node->type != XML_COMMENT_NODE) &&
(node->type != XML_PI_NODE))
return(-1);
return(xmlTextAddContent(node, content, len));
}
/************************************************************************
* *
* Output : to a FILE or in memory *
* *
************************************************************************/
/**
* xmlBufferCreate:
*
* routine to create an XML buffer.
* returns the new structure.
*/
xmlBufferPtr
xmlBufferCreate(void) {
xmlBufferPtr ret;
ret = (xmlBufferPtr) xmlMalloc(sizeof(xmlBuffer));
if (ret == NULL)
return(NULL);
ret->use = 0;
ret->size = xmlDefaultBufferSize;
ret->alloc = xmlBufferAllocScheme;
ret->content = (xmlChar *) xmlMallocAtomic(ret->size);
if (ret->content == NULL) {
xmlFree(ret);
return(NULL);
}
ret->content[0] = 0;
ret->contentIO = NULL;
return(ret);
}
/**
* xmlBufferCreateSize:
* @size: initial size of buffer
*
* routine to create an XML buffer.
* returns the new structure.
*/
xmlBufferPtr
xmlBufferCreateSize(size_t size) {
xmlBufferPtr ret;
if (size >= UINT_MAX)
return(NULL);
ret = (xmlBufferPtr) xmlMalloc(sizeof(xmlBuffer));
if (ret == NULL)
return(NULL);
ret->use = 0;
ret->alloc = xmlBufferAllocScheme;
ret->size = (size ? size + 1 : 0); /* +1 for ending null */
if (ret->size){
ret->content = (xmlChar *) xmlMallocAtomic(ret->size);
if (ret->content == NULL) {
xmlFree(ret);
return(NULL);
}
ret->content[0] = 0;
} else
ret->content = NULL;
ret->contentIO = NULL;
return(ret);
}
/**
* xmlBufferDetach:
* @buf: the buffer
*
* Remove the string contained in a buffer and gie it back to the
* caller. The buffer is reset to an empty content.
* This doesn't work with immutable buffers as they can't be reset.
*
* Returns the previous string contained by the buffer.
*/
xmlChar *
xmlBufferDetach(xmlBufferPtr buf) {
xmlChar *ret;
if (buf == NULL)
return(NULL);
ret = buf->content;
buf->content = NULL;
buf->size = 0;
buf->use = 0;
return ret;
}
/**
* xmlBufferCreateStatic:
* @mem: the memory area
* @size: the size in byte
*
* Returns an XML buffer initialized with bytes.
*/
xmlBufferPtr
xmlBufferCreateStatic(void *mem, size_t size) {
xmlBufferPtr buf = xmlBufferCreateSize(size);
xmlBufferAdd(buf, mem, size);
return(buf);
}
/**
* xmlBufferSetAllocationScheme:
* @buf: the buffer to tune
* @scheme: allocation scheme to use
*
* Sets the allocation scheme for this buffer
*/
void
xmlBufferSetAllocationScheme(xmlBufferPtr buf,
xmlBufferAllocationScheme scheme) {
if (buf == NULL) {
return;
}
if (buf->alloc == XML_BUFFER_ALLOC_IO) return;
if ((scheme == XML_BUFFER_ALLOC_DOUBLEIT) ||
(scheme == XML_BUFFER_ALLOC_EXACT) ||
(scheme == XML_BUFFER_ALLOC_HYBRID))
buf->alloc = scheme;
}
/**
* xmlBufferFree:
* @buf: the buffer to free
*
* Frees an XML buffer. It frees both the content and the structure which
* encapsulate it.
*/
void
xmlBufferFree(xmlBufferPtr buf) {
if (buf == NULL) {
return;
}
if ((buf->alloc == XML_BUFFER_ALLOC_IO) &&
(buf->contentIO != NULL)) {
xmlFree(buf->contentIO);
} else if (buf->content != NULL) {
xmlFree(buf->content);
}
xmlFree(buf);
}
/**
* xmlBufferEmpty:
* @buf: the buffer
*
* empty a buffer.
*/
void
xmlBufferEmpty(xmlBufferPtr buf) {
if (buf == NULL) return;
if (buf->content == NULL) return;
buf->use = 0;
if ((buf->alloc == XML_BUFFER_ALLOC_IO) && (buf->contentIO != NULL)) {
size_t start_buf = buf->content - buf->contentIO;
buf->size += start_buf;
buf->content = buf->contentIO;
buf->content[0] = 0;
} else {
buf->content[0] = 0;
}
}
/**
* xmlBufferShrink:
* @buf: the buffer to dump
* @len: the number of xmlChar to remove
*
* Remove the beginning of an XML buffer.
*
* Returns the number of #xmlChar removed, or -1 in case of failure.
*/
int
xmlBufferShrink(xmlBufferPtr buf, unsigned int len) {
if (buf == NULL) return(-1);
if (len == 0) return(0);
if (len > buf->use) return(-1);
buf->use -= len;
if ((buf->alloc == XML_BUFFER_ALLOC_IO) && (buf->contentIO != NULL)) {
/*
* we just move the content pointer, but also make sure
* the perceived buffer size has shrunk accordingly
*/
buf->content += len;
buf->size -= len;
/*
* sometimes though it maybe be better to really shrink
* on IO buffers
*/
if ((buf->alloc == XML_BUFFER_ALLOC_IO) && (buf->contentIO != NULL)) {
size_t start_buf = buf->content - buf->contentIO;
if (start_buf >= buf->size) {
memmove(buf->contentIO, &buf->content[0], buf->use);
buf->content = buf->contentIO;
buf->content[buf->use] = 0;
buf->size += start_buf;
}
}
} else {
memmove(buf->content, &buf->content[len], buf->use);
buf->content[buf->use] = 0;
}
return(len);
}
/**
* xmlBufferGrow:
* @buf: the buffer
* @len: the minimum free size to allocate
*
* Grow the available space of an XML buffer.
*
* Returns the new available space or -1 in case of error
*/
int
xmlBufferGrow(xmlBufferPtr buf, unsigned int len) {
unsigned int size;
xmlChar *newbuf;
if (buf == NULL) return(-1);
if (len < buf->size - buf->use)
return(0);
if (len >= UINT_MAX - buf->use)
return(-1);
if (buf->size > (size_t) len) {
size = buf->size > UINT_MAX / 2 ? UINT_MAX : buf->size * 2;
} else {
size = buf->use + len;
size = size > UINT_MAX - 100 ? UINT_MAX : size + 100;
}
if ((buf->alloc == XML_BUFFER_ALLOC_IO) && (buf->contentIO != NULL)) {
size_t start_buf = buf->content - buf->contentIO;
newbuf = (xmlChar *) xmlRealloc(buf->contentIO, start_buf + size);
if (newbuf == NULL)
return(-1);
buf->contentIO = newbuf;
buf->content = newbuf + start_buf;
} else {
newbuf = (xmlChar *) xmlRealloc(buf->content, size);
if (newbuf == NULL)
return(-1);
buf->content = newbuf;
}
buf->size = size;
return(buf->size - buf->use - 1);
}
/**
* xmlBufferDump:
* @file: the file output
* @buf: the buffer to dump
*
* Dumps an XML buffer to a FILE *.
* Returns the number of #xmlChar written
*/
int
xmlBufferDump(FILE *file, xmlBufferPtr buf) {
size_t ret;
if (buf == NULL) {
return(0);
}
if (buf->content == NULL) {
return(0);
}
if (file == NULL)
file = stdout;
ret = fwrite(buf->content, 1, buf->use, file);
return(ret > INT_MAX ? INT_MAX : ret);
}
/**
* xmlBufferContent:
* @buf: the buffer
*
* Function to extract the content of a buffer
*
* Returns the internal content
*/
const xmlChar *
xmlBufferContent(const xmlBuffer *buf)
{
if(!buf)
return NULL;
return buf->content;
}
/**
* xmlBufferLength:
* @buf: the buffer
*
* Function to get the length of a buffer
*
* Returns the length of data in the internal content
*/
int
xmlBufferLength(const xmlBuffer *buf)
{
if(!buf)
return 0;
return buf->use;
}
/**
* xmlBufferResize:
* @buf: the buffer to resize
* @size: the desired size
*
* Resize a buffer to accommodate minimum size of @size.
*
* Returns 0 in case of problems, 1 otherwise
*/
int
xmlBufferResize(xmlBufferPtr buf, unsigned int size)
{
unsigned int newSize;
xmlChar* rebuf = NULL;
size_t start_buf;
if (buf == NULL)
return(0);
/* Don't resize if we don't have to */
if (size < buf->size)
return 1;
if (size > UINT_MAX - 10)
return 0;
/* figure out new size */
switch (buf->alloc){
case XML_BUFFER_ALLOC_IO:
case XML_BUFFER_ALLOC_DOUBLEIT:
/*take care of empty case*/
if (buf->size == 0)
newSize = size + 10;
else
newSize = buf->size;
while (size > newSize) {
if (newSize > UINT_MAX / 2)
return 0;
newSize *= 2;
}
break;
case XML_BUFFER_ALLOC_EXACT:
newSize = size + 10;
break;
case XML_BUFFER_ALLOC_HYBRID:
if (buf->use < BASE_BUFFER_SIZE)
newSize = size;
else {
newSize = buf->size;
while (size > newSize) {
if (newSize > UINT_MAX / 2)
return 0;
newSize *= 2;
}
}
break;
default:
newSize = size + 10;
break;
}
if ((buf->alloc == XML_BUFFER_ALLOC_IO) && (buf->contentIO != NULL)) {
start_buf = buf->content - buf->contentIO;
if (start_buf > newSize) {
/* move data back to start */
memmove(buf->contentIO, buf->content, buf->use);
buf->content = buf->contentIO;
buf->content[buf->use] = 0;
buf->size += start_buf;
} else {
rebuf = (xmlChar *) xmlRealloc(buf->contentIO, start_buf + newSize);
if (rebuf == NULL)
return 0;
buf->contentIO = rebuf;
buf->content = rebuf + start_buf;
}
} else {
if (buf->content == NULL) {
rebuf = (xmlChar *) xmlMallocAtomic(newSize);
buf->use = 0;
rebuf[buf->use] = 0;
} else if (buf->size - buf->use < 100) {
rebuf = (xmlChar *) xmlRealloc(buf->content, newSize);
} else {
/*
* if we are reallocating a buffer far from being full, it's
* better to make a new allocation and copy only the used range
* and free the old one.
*/
rebuf = (xmlChar *) xmlMallocAtomic(newSize);
if (rebuf != NULL) {
memcpy(rebuf, buf->content, buf->use);
xmlFree(buf->content);
rebuf[buf->use] = 0;
}
}
if (rebuf == NULL)
return 0;
buf->content = rebuf;
}
buf->size = newSize;
return 1;
}
/**
* xmlBufferAdd:
* @buf: the buffer to dump
* @str: the #xmlChar string
* @len: the number of #xmlChar to add
*
* Add a string range to an XML buffer. if len == -1, the length of
* str is recomputed.
*
* Returns 0 successful, a positive error code number otherwise
* and -1 in case of internal or API error.
*/
int
xmlBufferAdd(xmlBufferPtr buf, const xmlChar *str, int len) {
unsigned int needSize;
if ((str == NULL) || (buf == NULL)) {
return -1;
}
if (len < -1) {
return -1;
}
if (len == 0) return 0;
if (len < 0)
len = xmlStrlen(str);
if (len < 0) return -1;
if (len == 0) return 0;
/* Note that both buf->size and buf->use can be zero here. */
if ((unsigned) len >= buf->size - buf->use) {
if ((unsigned) len >= UINT_MAX - buf->use)
return XML_ERR_NO_MEMORY;
needSize = buf->use + len + 1;
if (!xmlBufferResize(buf, needSize))
return XML_ERR_NO_MEMORY;
}
memmove(&buf->content[buf->use], str, len);
buf->use += len;
buf->content[buf->use] = 0;
return 0;
}
/**
* xmlBufferAddHead:
* @buf: the buffer
* @str: the #xmlChar string
* @len: the number of #xmlChar to add
*
* Add a string range to the beginning of an XML buffer.
* if len == -1, the length of @str is recomputed.
*
* Returns 0 successful, a positive error code number otherwise
* and -1 in case of internal or API error.
*/
int
xmlBufferAddHead(xmlBufferPtr buf, const xmlChar *str, int len) {
unsigned int needSize;
if (buf == NULL)
return(-1);
if (str == NULL) {
return -1;
}
if (len < -1) {
return -1;
}
if (len == 0) return 0;
if (len < 0)
len = xmlStrlen(str);
if (len <= 0) return -1;
if ((buf->alloc == XML_BUFFER_ALLOC_IO) && (buf->contentIO != NULL)) {
size_t start_buf = buf->content - buf->contentIO;
if (start_buf > (unsigned int) len) {
/*
* We can add it in the space previously shrunk
*/
buf->content -= len;
memmove(&buf->content[0], str, len);
buf->use += len;
buf->size += len;
buf->content[buf->use] = 0;
return(0);
}
}
/* Note that both buf->size and buf->use can be zero here. */
if ((unsigned) len >= buf->size - buf->use) {
if ((unsigned) len >= UINT_MAX - buf->use)
return(-1);
needSize = buf->use + len + 1;
if (!xmlBufferResize(buf, needSize))
return(-1);
}
memmove(&buf->content[len], &buf->content[0], buf->use);
memmove(&buf->content[0], str, len);
buf->use += len;
buf->content[buf->use] = 0;
return 0;
}
/**
* xmlBufferCat:
* @buf: the buffer to add to
* @str: the #xmlChar string
*
* Append a zero terminated string to an XML buffer.
*
* Returns 0 successful, a positive error code number otherwise
* and -1 in case of internal or API error.
*/
int
xmlBufferCat(xmlBufferPtr buf, const xmlChar *str) {
if (buf == NULL)
return(-1);
if (str == NULL) return -1;
return xmlBufferAdd(buf, str, -1);
}
/**
* xmlBufferCCat:
* @buf: the buffer to dump
* @str: the C char string
*
* Append a zero terminated C string to an XML buffer.
*
* Returns 0 successful, a positive error code number otherwise
* and -1 in case of internal or API error.
*/
int
xmlBufferCCat(xmlBufferPtr buf, const char *str) {
return xmlBufferCat(buf, (const xmlChar *) str);
}
/**
* xmlBufferWriteCHAR:
* @buf: the XML buffer
* @string: the string to add
*
* routine which manages and grows an output buffer. This one adds
* xmlChars at the end of the buffer.
*/
void
xmlBufferWriteCHAR(xmlBufferPtr buf, const xmlChar *string) {
if (buf == NULL)
return;
xmlBufferCat(buf, string);
}
/**
* xmlBufferWriteChar:
* @buf: the XML buffer output
* @string: the string to add
*
* routine which manage and grows an output buffer. This one add
* C chars at the end of the array.
*/
void
xmlBufferWriteChar(xmlBufferPtr buf, const char *string) {
if (buf == NULL)
return;
xmlBufferCCat(buf, string);
}
/**
* xmlBufferWriteQuotedString:
* @buf: the XML buffer output
* @string: the string to add
*
* routine which manage and grows an output buffer. This one writes
* a quoted or double quoted #xmlChar string, checking first if it holds
* quote or double-quotes internally
*/
void
xmlBufferWriteQuotedString(xmlBufferPtr buf, const xmlChar *string) {
const xmlChar *cur, *base;
if (buf == NULL)
return;
if (xmlStrchr(string, '\"')) {
if (xmlStrchr(string, '\'')) {
xmlBufferCCat(buf, "\"");
base = cur = string;
while(*cur != 0){
if(*cur == '"'){
if (base != cur)
xmlBufferAdd(buf, base, cur - base);
xmlBufferAdd(buf, BAD_CAST "&quot;", 6);
cur++;
base = cur;
}
else {
cur++;
}
}
if (base != cur)
xmlBufferAdd(buf, base, cur - base);
xmlBufferCCat(buf, "\"");
}
else{
xmlBufferCCat(buf, "\'");
xmlBufferCat(buf, string);
xmlBufferCCat(buf, "\'");
}
} else {
xmlBufferCCat(buf, "\"");
xmlBufferCat(buf, string);
xmlBufferCCat(buf, "\"");
}
}
/**
* xmlGetDocCompressMode:
* @doc: the document
*
* get the compression ratio for a document, ZLIB based
* Returns 0 (uncompressed) to 9 (max compression)
*/
int
xmlGetDocCompressMode (const xmlDoc *doc) {
if (doc == NULL) return(-1);
return(doc->compression);
}
/**
* xmlSetDocCompressMode:
* @doc: the document
* @mode: the compression ratio
*
* set the compression ratio for a document, ZLIB based
* Correct values: 0 (uncompressed) to 9 (max compression)
*/
void
xmlSetDocCompressMode (xmlDocPtr doc, int mode) {
if (doc == NULL) return;
if (mode < 0) doc->compression = 0;
else if (mode > 9) doc->compression = 9;
else doc->compression = mode;
}
/**
* xmlGetCompressMode:
*
* get the default compression mode used, ZLIB based.
* Returns 0 (uncompressed) to 9 (max compression)
*/
int
xmlGetCompressMode(void)
{
return (xmlCompressMode);
}
/**
* xmlSetCompressMode:
* @mode: the compression ratio
*
* set the default compression mode used, ZLIB based
* Correct values: 0 (uncompressed) to 9 (max compression)
*/
void
xmlSetCompressMode(int mode) {
if (mode < 0) xmlCompressMode = 0;
else if (mode > 9) xmlCompressMode = 9;
else xmlCompressMode = mode;
}
#define XML_TREE_NSMAP_PARENT -1
#define XML_TREE_NSMAP_XML -2
#define XML_TREE_NSMAP_DOC -3
#define XML_TREE_NSMAP_CUSTOM -4
typedef struct xmlNsMapItem *xmlNsMapItemPtr;
struct xmlNsMapItem {
xmlNsMapItemPtr next;
xmlNsMapItemPtr prev;
xmlNsPtr oldNs; /* old ns decl reference */
xmlNsPtr newNs; /* new ns decl reference */
int shadowDepth; /* Shadowed at this depth */
/*
* depth:
* >= 0 == @node's ns-decls
* -1 == @parent's ns-decls
* -2 == the doc->oldNs XML ns-decl
* -3 == the doc->oldNs storage ns-decls
* -4 == ns-decls provided via custom ns-handling
*/
int depth;
};
typedef struct xmlNsMap *xmlNsMapPtr;
struct xmlNsMap {
xmlNsMapItemPtr first;
xmlNsMapItemPtr last;
xmlNsMapItemPtr pool;
};
#define XML_NSMAP_NOTEMPTY(m) (((m) != NULL) && ((m)->first != NULL))
#define XML_NSMAP_FOREACH(m, i) for (i = (m)->first; i != NULL; i = (i)->next)
#define XML_NSMAP_POP(m, i) \
i = (m)->last; \
(m)->last = (i)->prev; \
if ((m)->last == NULL) \
(m)->first = NULL; \
else \
(m)->last->next = NULL; \
(i)->next = (m)->pool; \
(m)->pool = i;
/*
* xmlDOMWrapNsMapFree:
* @map: the ns-map
*
* Frees the ns-map
*/
static void
xmlDOMWrapNsMapFree(xmlNsMapPtr nsmap)
{
xmlNsMapItemPtr cur, tmp;
if (nsmap == NULL)
return;
cur = nsmap->pool;
while (cur != NULL) {
tmp = cur;
cur = cur->next;
xmlFree(tmp);
}
cur = nsmap->first;
while (cur != NULL) {
tmp = cur;
cur = cur->next;
xmlFree(tmp);
}
xmlFree(nsmap);
}
/*
* xmlDOMWrapNsMapAddItem:
* @map: the ns-map
* @oldNs: the old ns-struct
* @newNs: the new ns-struct
* @depth: depth and ns-kind information
*
* Adds an ns-mapping item.
*/
static xmlNsMapItemPtr
xmlDOMWrapNsMapAddItem(xmlNsMapPtr *nsmap, int position,
xmlNsPtr oldNs, xmlNsPtr newNs, int depth)
{
xmlNsMapItemPtr ret;
xmlNsMapPtr map;
if (nsmap == NULL)
return(NULL);
if ((position != -1) && (position != 0))
return(NULL);
map = *nsmap;
if (map == NULL) {
/*
* Create the ns-map.
*/
map = (xmlNsMapPtr) xmlMalloc(sizeof(struct xmlNsMap));
if (map == NULL)
return(NULL);
memset(map, 0, sizeof(struct xmlNsMap));
*nsmap = map;
}
if (map->pool != NULL) {
/*
* Reuse an item from the pool.
*/
ret = map->pool;
map->pool = ret->next;
memset(ret, 0, sizeof(struct xmlNsMapItem));
} else {
/*
* Create a new item.
*/
ret = (xmlNsMapItemPtr) xmlMalloc(sizeof(struct xmlNsMapItem));
if (ret == NULL)
return(NULL);
memset(ret, 0, sizeof(struct xmlNsMapItem));
}
if (map->first == NULL) {
/*
* First ever.
*/
map->first = ret;
map->last = ret;
} else if (position == -1) {
/*
* Append.
*/
ret->prev = map->last;
map->last->next = ret;
map->last = ret;
} else if (position == 0) {
/*
* Set on first position.
*/
map->first->prev = ret;
ret->next = map->first;
map->first = ret;
}
ret->oldNs = oldNs;
ret->newNs = newNs;
ret->shadowDepth = -1;
ret->depth = depth;
return (ret);
}
/*
* xmlDOMWrapStoreNs:
* @doc: the doc
* @nsName: the namespace name
* @prefix: the prefix
*
* Creates or reuses an xmlNs struct on doc->oldNs with
* the given prefix and namespace name.
*
* Returns the acquired ns struct or NULL in case of an API
* or internal error.
*/
static xmlNsPtr
xmlDOMWrapStoreNs(xmlDocPtr doc,
const xmlChar *nsName,
const xmlChar *prefix)
{
xmlNsPtr ns;
if (doc == NULL)
return (NULL);
ns = xmlTreeEnsureXMLDecl(doc);
if (ns == NULL)
return (NULL);
if (ns->next != NULL) {
/* Reuse. */
ns = ns->next;
while (ns != NULL) {
if (((ns->prefix == prefix) ||
xmlStrEqual(ns->prefix, prefix)) &&
xmlStrEqual(ns->href, nsName)) {
return (ns);
}
if (ns->next == NULL)
break;
ns = ns->next;
}
}
/* Create. */
if (ns != NULL) {
ns->next = xmlNewNs(NULL, nsName, prefix);
return (ns->next);
}
return(NULL);
}
/*
* xmlDOMWrapNewCtxt:
*
* Allocates and initializes a new DOM-wrapper context.
*
* Returns the xmlDOMWrapCtxtPtr or NULL in case of an internal error.
*/
xmlDOMWrapCtxtPtr
xmlDOMWrapNewCtxt(void)
{
xmlDOMWrapCtxtPtr ret;
ret = xmlMalloc(sizeof(xmlDOMWrapCtxt));
if (ret == NULL)
return (NULL);
memset(ret, 0, sizeof(xmlDOMWrapCtxt));
return (ret);
}
/*
* xmlDOMWrapFreeCtxt:
* @ctxt: the DOM-wrapper context
*
* Frees the DOM-wrapper context.
*/
void
xmlDOMWrapFreeCtxt(xmlDOMWrapCtxtPtr ctxt)
{
if (ctxt == NULL)
return;
if (ctxt->namespaceMap != NULL)
xmlDOMWrapNsMapFree((xmlNsMapPtr) ctxt->namespaceMap);
/*
* TODO: Store the namespace map in the context.
*/
xmlFree(ctxt);
}
/*
* xmlTreeLookupNsListByPrefix:
* @nsList: a list of ns-structs
* @prefix: the searched prefix
*
* Searches for a ns-decl with the given prefix in @nsList.
*
* Returns the ns-decl if found, NULL if not found and on
* API errors.
*/
static xmlNsPtr
xmlTreeNSListLookupByPrefix(xmlNsPtr nsList, const xmlChar *prefix)
{
if (nsList == NULL)
return (NULL);
{
xmlNsPtr ns;
ns = nsList;
do {
if ((prefix == ns->prefix) ||
xmlStrEqual(prefix, ns->prefix)) {
return (ns);
}
ns = ns->next;
} while (ns != NULL);
}
return (NULL);
}
/*
*
* xmlDOMWrapNSNormGatherInScopeNs:
* @map: the namespace map
* @node: the node to start with
*
* Puts in-scope namespaces into the ns-map.
*
* Returns 0 on success, -1 on API or internal errors.
*/
static int
xmlDOMWrapNSNormGatherInScopeNs(xmlNsMapPtr *map,
xmlNodePtr node)
{
xmlNodePtr cur;
xmlNsPtr ns;
xmlNsMapItemPtr mi;
int shadowed;
if ((map == NULL) || (*map != NULL))
return (-1);
if ((node == NULL) || (node->type == XML_NAMESPACE_DECL))
return (-1);
/*
* Get in-scope ns-decls of @parent.
*/
cur = node;
while ((cur != NULL) && (cur != (xmlNodePtr) cur->doc)) {
if (cur->type == XML_ELEMENT_NODE) {
if (cur->nsDef != NULL) {
ns = cur->nsDef;
do {
shadowed = 0;
if (XML_NSMAP_NOTEMPTY(*map)) {
/*
* Skip shadowed prefixes.
*/
XML_NSMAP_FOREACH(*map, mi) {
if ((ns->prefix == mi->newNs->prefix) ||
xmlStrEqual(ns->prefix, mi->newNs->prefix)) {
shadowed = 1;
break;
}
}
}
/*
* Insert mapping.
*/
mi = xmlDOMWrapNsMapAddItem(map, 0, NULL,
ns, XML_TREE_NSMAP_PARENT);
if (mi == NULL)
return (-1);
if (shadowed)
mi->shadowDepth = 0;
ns = ns->next;
} while (ns != NULL);
}
}
cur = cur->parent;
}
return (0);
}
/*
* xmlDOMWrapNSNormAddNsMapItem2:
*
* For internal use. Adds a ns-decl mapping.
*
* Returns 0 on success, -1 on internal errors.
*/
static int
xmlDOMWrapNSNormAddNsMapItem2(xmlNsPtr **list, int *size, int *number,
xmlNsPtr oldNs, xmlNsPtr newNs)
{
if (*number >= *size) {
xmlNsPtr *tmp;
size_t newSize;
newSize = *size ? *size * 2 : 3;
tmp = xmlRealloc(*list, newSize * 2 * sizeof(tmp[0]));
if (tmp == NULL)
return(-1);
*list = tmp;
*size = newSize;
}
(*list)[2 * (*number)] = oldNs;
(*list)[2 * (*number) +1] = newNs;
(*number)++;
return (0);
}
/*
* xmlDOMWrapRemoveNode:
* @ctxt: a DOM wrapper context
* @doc: the doc
* @node: the node to be removed.
* @options: set of options, unused at the moment
*
* Unlinks the given node from its owner.
* This will substitute ns-references to node->nsDef for
* ns-references to doc->oldNs, thus ensuring the removed
* branch to be autark wrt ns-references.
*
* NOTE: This function was not intensively tested.
*
* Returns 0 on success, 1 if the node is not supported,
* -1 on API and internal errors.
*/
int
xmlDOMWrapRemoveNode(xmlDOMWrapCtxtPtr ctxt, xmlDocPtr doc,
xmlNodePtr node, int options ATTRIBUTE_UNUSED)
{
xmlNsPtr *list = NULL;
int sizeList = 0, nbList = 0, ret = 0, i, j;
xmlNsPtr ns;
if ((node == NULL) || (doc == NULL) || (node->doc != doc))
return (-1);
/* TODO: 0 or -1 ? */
if (node->parent == NULL)
return (0);
switch (node->type) {
case XML_TEXT_NODE:
case XML_CDATA_SECTION_NODE:
case XML_ENTITY_REF_NODE:
case XML_PI_NODE:
case XML_COMMENT_NODE:
xmlUnlinkNodeInternal(node);
return (0);
case XML_ELEMENT_NODE:
case XML_ATTRIBUTE_NODE:
break;
default:
return (1);
}
xmlUnlinkNodeInternal(node);
/*
* Save out-of-scope ns-references in doc->oldNs.
*/
do {
switch (node->type) {
case XML_ELEMENT_NODE:
if ((ctxt == NULL) && (node->nsDef != NULL)) {
ns = node->nsDef;
do {
if (xmlDOMWrapNSNormAddNsMapItem2(&list, &sizeList,
&nbList, ns, ns) == -1)
ret = -1;
ns = ns->next;
} while (ns != NULL);
}
/* Falls through. */
case XML_ATTRIBUTE_NODE:
if (node->ns != NULL) {
/*
* Find a mapping.
*/
if (list != NULL) {
for (i = 0, j = 0; i < nbList; i++, j += 2) {
if (node->ns == list[j]) {
node->ns = list[++j];
goto next_node;
}
}
}
ns = NULL;
if (ctxt != NULL) {
/*
* User defined.
*/
} else {
/*
* Add to doc's oldNs.
*/
ns = xmlDOMWrapStoreNs(doc, node->ns->href,
node->ns->prefix);
if (ns == NULL)
ret = -1;
}
if (ns != NULL) {
/*
* Add mapping.
*/
if (xmlDOMWrapNSNormAddNsMapItem2(&list, &sizeList,
&nbList, node->ns, ns) == -1)
ret = -1;
}
node->ns = ns;
}
if ((node->type == XML_ELEMENT_NODE) &&
(node->properties != NULL)) {
node = (xmlNodePtr) node->properties;
continue;
}
break;
default:
goto next_sibling;
}
next_node:
if ((node->type == XML_ELEMENT_NODE) &&
(node->children != NULL)) {
node = node->children;
continue;
}
next_sibling:
if (node == NULL)
break;
if (node->next != NULL)
node = node->next;
else {
int type = node->type;
node = node->parent;
if ((type == XML_ATTRIBUTE_NODE) &&
(node != NULL) &&
(node->children != NULL)) {
node = node->children;
} else {
goto next_sibling;
}
}
} while (node != NULL);
if (list != NULL)
xmlFree(list);
return (ret);
}
/*
* xmlSearchNsByNamespaceStrict:
* @doc: the document
* @node: the start node
* @nsName: the searched namespace name
* @retNs: the resulting ns-decl
* @prefixed: if the found ns-decl must have a prefix (for attributes)
*
* Dynamically searches for a ns-declaration which matches
* the given @nsName in the ancestor-or-self axis of @node.
*
* Returns 1 if a ns-decl was found, 0 if not and -1 on API
* and internal errors.
*/
static int
xmlSearchNsByNamespaceStrict(xmlDocPtr doc, xmlNodePtr node,
const xmlChar* nsName,
xmlNsPtr *retNs, int prefixed)
{
xmlNodePtr cur, prev = NULL, out = NULL;
xmlNsPtr ns, prevns;
if ((doc == NULL) || (nsName == NULL) || (retNs == NULL))
return (-1);
if ((node == NULL) || (node->type == XML_NAMESPACE_DECL))
return(-1);
*retNs = NULL;
if (xmlStrEqual(nsName, XML_XML_NAMESPACE)) {
*retNs = xmlTreeEnsureXMLDecl(doc);
if (*retNs == NULL)
return (-1);
return (1);
}
cur = node;
do {
if (cur->type == XML_ELEMENT_NODE) {
if (cur->nsDef != NULL) {
for (ns = cur->nsDef; ns != NULL; ns = ns->next) {
if (prefixed && (ns->prefix == NULL))
continue;
if (prev != NULL) {
/*
* Check the last level of ns-decls for a
* shadowing prefix.
*/
prevns = prev->nsDef;
do {
if ((prevns->prefix == ns->prefix) ||
((prevns->prefix != NULL) &&
(ns->prefix != NULL) &&
xmlStrEqual(prevns->prefix, ns->prefix))) {
/*
* Shadowed.
*/
break;
}
prevns = prevns->next;
} while (prevns != NULL);
if (prevns != NULL)
continue;
}
/*
* Ns-name comparison.
*/
if ((nsName == ns->href) ||
xmlStrEqual(nsName, ns->href)) {
/*
* At this point the prefix can only be shadowed,
* if we are the the (at least) 3rd level of
* ns-decls.
*/
if (out) {
int ret;
ret = xmlNsInScope(doc, node, prev, ns->prefix);
if (ret < 0)
return (-1);
/*
* TODO: Should we try to find a matching ns-name
* only once? This here keeps on searching.
* I think we should try further since, there might
* be an other matching ns-decl with an unshadowed
* prefix.
*/
if (! ret)
continue;
}
*retNs = ns;
return (1);
}
}
out = prev;
prev = cur;
}
} else if (cur->type == XML_ENTITY_DECL)
return (0);
cur = cur->parent;
} while ((cur != NULL) && (cur->doc != (xmlDocPtr) cur));
return (0);
}
/*
* xmlSearchNsByPrefixStrict:
* @doc: the document
* @node: the start node
* @prefix: the searched namespace prefix
* @retNs: the resulting ns-decl
*
* Dynamically searches for a ns-declaration which matches
* the given @nsName in the ancestor-or-self axis of @node.
*
* Returns 1 if a ns-decl was found, 0 if not and -1 on API
* and internal errors.
*/
static int
xmlSearchNsByPrefixStrict(xmlDocPtr doc, xmlNodePtr node,
const xmlChar* prefix,
xmlNsPtr *retNs)
{
xmlNodePtr cur;
xmlNsPtr ns;
if ((doc == NULL) || (node == NULL) || (node->type == XML_NAMESPACE_DECL))
return(-1);
if (retNs)
*retNs = NULL;
if (IS_STR_XML(prefix)) {
if (retNs) {
*retNs = xmlTreeEnsureXMLDecl(doc);
if (*retNs == NULL)
return (-1);
}
return (1);
}
cur = node;
do {
if (cur->type == XML_ELEMENT_NODE) {
if (cur->nsDef != NULL) {
ns = cur->nsDef;
do {
if ((prefix == ns->prefix) ||
xmlStrEqual(prefix, ns->prefix))
{
/*
* Disabled namespaces, e.g. xmlns:abc="".
*/
if (ns->href == NULL)
return(0);
if (retNs)
*retNs = ns;
return (1);
}
ns = ns->next;
} while (ns != NULL);
}
} else if (cur->type == XML_ENTITY_DECL)
return (0);
cur = cur->parent;
} while ((cur != NULL) && (cur->doc != (xmlDocPtr) cur));
return (0);
}
/*
* xmlDOMWrapNSNormDeclareNsForced:
* @doc: the doc
* @elem: the element-node to declare on
* @nsName: the namespace-name of the ns-decl
* @prefix: the preferred prefix of the ns-decl
* @checkShadow: ensure that the new ns-decl doesn't shadow ancestor ns-decls
*
* Declares a new namespace on @elem. It tries to use the
* given @prefix; if a ns-decl with the given prefix is already existent
* on @elem, it will generate an other prefix.
*
* Returns 1 if a ns-decl was found, 0 if not and -1 on API
* and internal errors.
*/
static xmlNsPtr
xmlDOMWrapNSNormDeclareNsForced(xmlDocPtr doc,
xmlNodePtr elem,
const xmlChar *nsName,
const xmlChar *prefix,
int checkShadow)
{
xmlNsPtr ret;
char buf[50];
const xmlChar *pref;
int counter = 0;
if ((doc == NULL) || (elem == NULL) || (elem->type != XML_ELEMENT_NODE))
return(NULL);
/*
* Create a ns-decl on @anchor.
*/
pref = prefix;
while (1) {
/*
* Lookup whether the prefix is unused in elem's ns-decls.
*/
if ((elem->nsDef != NULL) &&
(xmlTreeNSListLookupByPrefix(elem->nsDef, pref) != NULL))
goto ns_next_prefix;
if (checkShadow && elem->parent &&
((xmlNodePtr) elem->parent->doc != elem->parent)) {
/*
* Does it shadow ancestor ns-decls?
*/
if (xmlSearchNsByPrefixStrict(doc, elem->parent, pref, NULL) == 1)
goto ns_next_prefix;
}
ret = xmlNewNs(NULL, nsName, pref);
if (ret == NULL)
return (NULL);
if (elem->nsDef == NULL)
elem->nsDef = ret;
else {
xmlNsPtr ns2 = elem->nsDef;
while (ns2->next != NULL)
ns2 = ns2->next;
ns2->next = ret;
}
return (ret);
ns_next_prefix:
counter++;
if (counter > 1000)
return (NULL);
if (prefix == NULL) {
snprintf((char *) buf, sizeof(buf),
"ns_%d", counter);
} else
snprintf((char *) buf, sizeof(buf),
"%.30s_%d", (char *)prefix, counter);
pref = BAD_CAST buf;
}
}
/*
* xmlDOMWrapNSNormAcquireNormalizedNs:
* @doc: the doc
* @elem: the element-node to declare namespaces on
* @ns: the ns-struct to use for the search
* @retNs: the found/created ns-struct
* @nsMap: the ns-map
* @depth: the current tree depth
* @ancestorsOnly: search in ancestor ns-decls only
* @prefixed: if the searched ns-decl must have a prefix (for attributes)
*
* Searches for a matching ns-name in the ns-decls of @nsMap, if not
* found it will either declare it on @elem, or store it in doc->oldNs.
* If a new ns-decl needs to be declared on @elem, it tries to use the
* @ns->prefix for it, if this prefix is already in use on @elem, it will
* change the prefix or the new ns-decl.
*
* Returns 0 if succeeded, -1 otherwise and on API/internal errors.
*/
static int
xmlDOMWrapNSNormAcquireNormalizedNs(xmlDocPtr doc,
xmlNodePtr elem,
xmlNsPtr ns,
xmlNsPtr *retNs,
xmlNsMapPtr *nsMap,
int depth,
int ancestorsOnly,
int prefixed)
{
xmlNsMapItemPtr mi;
if ((doc == NULL) || (ns == NULL) || (retNs == NULL) ||
(nsMap == NULL))
return (-1);
*retNs = NULL;
/*
* Handle XML namespace.
*/
if (IS_STR_XML(ns->prefix)) {
/*
* Insert XML namespace mapping.
*/
*retNs = xmlTreeEnsureXMLDecl(doc);
if (*retNs == NULL)
return (-1);
return (0);
}
/*
* If the search should be done in ancestors only and no
* @elem (the first ancestor) was specified, then skip the search.
*/
if ((XML_NSMAP_NOTEMPTY(*nsMap)) &&
(! (ancestorsOnly && (elem == NULL))))
{
/*
* Try to find an equal ns-name in in-scope ns-decls.
*/
XML_NSMAP_FOREACH(*nsMap, mi) {
if ((mi->depth >= XML_TREE_NSMAP_PARENT) &&
/*
* ancestorsOnly: This should be turned on to gain speed,
* if one knows that the branch itself was already
* ns-wellformed and no stale references existed.
* I.e. it searches in the ancestor axis only.
*/
((! ancestorsOnly) || (mi->depth == XML_TREE_NSMAP_PARENT)) &&
/* Skip shadowed prefixes. */
(mi->shadowDepth == -1) &&
/* Skip xmlns="" or xmlns:foo="". */
((mi->newNs->href != NULL) &&
(mi->newNs->href[0] != 0)) &&
/* Ensure a prefix if wanted. */
((! prefixed) || (mi->newNs->prefix != NULL)) &&
/* Equal ns name */
((mi->newNs->href == ns->href) ||
xmlStrEqual(mi->newNs->href, ns->href))) {
/* Set the mapping. */
mi->oldNs = ns;
*retNs = mi->newNs;
return (0);
}
}
}
/*
* No luck, the namespace is out of scope or shadowed.
*/
if (elem == NULL) {
xmlNsPtr tmpns;
/*
* Store ns-decls in "oldNs" of the document-node.
*/
tmpns = xmlDOMWrapStoreNs(doc, ns->href, ns->prefix);
if (tmpns == NULL)
return (-1);
/*
* Insert mapping.
*/
if (xmlDOMWrapNsMapAddItem(nsMap, -1, ns,
tmpns, XML_TREE_NSMAP_DOC) == NULL) {
return (-1);
}
*retNs = tmpns;
} else {
xmlNsPtr tmpns;
tmpns = xmlDOMWrapNSNormDeclareNsForced(doc, elem, ns->href,
ns->prefix, 0);
if (tmpns == NULL)
return (-1);
if (*nsMap != NULL) {
/*
* Does it shadow ancestor ns-decls?
*/
XML_NSMAP_FOREACH(*nsMap, mi) {
if ((mi->depth < depth) &&
(mi->shadowDepth == -1) &&
((ns->prefix == mi->newNs->prefix) ||
xmlStrEqual(ns->prefix, mi->newNs->prefix))) {
/*
* Shadows.
*/
mi->shadowDepth = depth;
break;
}
}
}
if (xmlDOMWrapNsMapAddItem(nsMap, -1, ns, tmpns, depth) == NULL) {
return (-1);
}
*retNs = tmpns;
}
return (0);
}
typedef enum {
XML_DOM_RECONNS_REMOVEREDUND = 1<<0
} xmlDOMReconcileNSOptions;
/*
* xmlDOMWrapReconcileNamespaces:
* @ctxt: DOM wrapper context, unused at the moment
* @elem: the element-node
* @options: option flags
*
* Ensures that ns-references point to ns-decls hold on element-nodes.
* Ensures that the tree is namespace wellformed by creating additional
* ns-decls where needed. Note that, since prefixes of already existent
* ns-decls can be shadowed by this process, it could break QNames in
* attribute values or element content.
*
* NOTE: This function was not intensively tested.
*
* Returns 0 if succeeded, -1 otherwise and on API/internal errors.
*/
int
xmlDOMWrapReconcileNamespaces(xmlDOMWrapCtxtPtr ctxt ATTRIBUTE_UNUSED,
xmlNodePtr elem,
int options)
{
int depth = -1, adoptns = 0, parnsdone = 0;
xmlNsPtr ns, prevns;
xmlDocPtr doc;
xmlNodePtr cur, curElem = NULL;
xmlNsMapPtr nsMap = NULL;
xmlNsMapItemPtr /* topmi = NULL, */ mi;
/* @ancestorsOnly should be set by an option flag. */
int ancestorsOnly = 0;
int optRemoveRedundantNS =
((xmlDOMReconcileNSOptions) options & XML_DOM_RECONNS_REMOVEREDUND) ? 1 : 0;
xmlNsPtr *listRedund = NULL;
int sizeRedund = 0, nbRedund = 0, ret = 0, i, j;
if ((elem == NULL) || (elem->doc == NULL) ||
(elem->type != XML_ELEMENT_NODE))
return (-1);
doc = elem->doc;
cur = elem;
do {
switch (cur->type) {
case XML_ELEMENT_NODE:
adoptns = 1;
curElem = cur;
depth++;
/*
* Namespace declarations.
*/
if (cur->nsDef != NULL) {
prevns = NULL;
ns = cur->nsDef;
while (ns != NULL) {
if (! parnsdone) {
if ((elem->parent) &&
((xmlNodePtr) elem->parent->doc != elem->parent)) {
/*
* Gather ancestor in-scope ns-decls.
*/
if (xmlDOMWrapNSNormGatherInScopeNs(&nsMap,
elem->parent) == -1)
ret = -1;
}
parnsdone = 1;
}
/*
* Lookup the ns ancestor-axis for equal ns-decls in scope.
*/
if (optRemoveRedundantNS && XML_NSMAP_NOTEMPTY(nsMap)) {
XML_NSMAP_FOREACH(nsMap, mi) {
if ((mi->depth >= XML_TREE_NSMAP_PARENT) &&
(mi->shadowDepth == -1) &&
((ns->prefix == mi->newNs->prefix) ||
xmlStrEqual(ns->prefix, mi->newNs->prefix)) &&
((ns->href == mi->newNs->href) ||
xmlStrEqual(ns->href, mi->newNs->href)))
{
/*
* A redundant ns-decl was found.
* Add it to the list of redundant ns-decls.
*/
if (xmlDOMWrapNSNormAddNsMapItem2(&listRedund,
&sizeRedund, &nbRedund, ns, mi->newNs) == -1) {
ret = -1;
} else {
/*
* Remove the ns-decl from the element-node.
*/
if (prevns)
prevns->next = ns->next;
else
cur->nsDef = ns->next;
goto next_ns_decl;
}
}
}
}
/*
* Skip ns-references handling if the referenced
* ns-decl is declared on the same element.
*/
if ((cur->ns != NULL) && adoptns && (cur->ns == ns))
adoptns = 0;
/*
* Does it shadow any ns-decl?
*/
if (XML_NSMAP_NOTEMPTY(nsMap)) {
XML_NSMAP_FOREACH(nsMap, mi) {
if ((mi->depth >= XML_TREE_NSMAP_PARENT) &&
(mi->shadowDepth == -1) &&
((ns->prefix == mi->newNs->prefix) ||
xmlStrEqual(ns->prefix, mi->newNs->prefix))) {
mi->shadowDepth = depth;
}
}
}
/*
* Push mapping.
*/
if (xmlDOMWrapNsMapAddItem(&nsMap, -1, ns, ns,
depth) == NULL)
ret = -1;
prevns = ns;
next_ns_decl:
ns = ns->next;
}
}
if (! adoptns)
goto ns_end;
/* Falls through. */
case XML_ATTRIBUTE_NODE:
/* No ns, no fun. */
if (cur->ns == NULL)
goto ns_end;
if (! parnsdone) {
if ((elem->parent) &&
((xmlNodePtr) elem->parent->doc != elem->parent)) {
if (xmlDOMWrapNSNormGatherInScopeNs(&nsMap,
elem->parent) == -1)
ret = -1;
}
parnsdone = 1;
}
/*
* Adjust the reference if this was a redundant ns-decl.
*/
if (listRedund) {
for (i = 0, j = 0; i < nbRedund; i++, j += 2) {
if (cur->ns == listRedund[j]) {
cur->ns = listRedund[++j];
break;
}
}
}
/*
* Adopt ns-references.
*/
if (XML_NSMAP_NOTEMPTY(nsMap)) {
/*
* Search for a mapping.
*/
XML_NSMAP_FOREACH(nsMap, mi) {
if ((mi->shadowDepth == -1) &&
(cur->ns == mi->oldNs)) {
cur->ns = mi->newNs;
goto ns_end;
}
}
}
/*
* Acquire a normalized ns-decl and add it to the map.
*/
if (xmlDOMWrapNSNormAcquireNormalizedNs(doc, curElem,
cur->ns, &ns,
&nsMap, depth,
ancestorsOnly,
(cur->type == XML_ATTRIBUTE_NODE) ? 1 : 0) == -1)
ret = -1;
cur->ns = ns;
ns_end:
if ((cur->type == XML_ELEMENT_NODE) &&
(cur->properties != NULL)) {
/*
* Process attributes.
*/
cur = (xmlNodePtr) cur->properties;
continue;
}
break;
default:
goto next_sibling;
}
into_content:
if ((cur->type == XML_ELEMENT_NODE) &&
(cur->children != NULL)) {
/*
* Process content of element-nodes only.
*/
cur = cur->children;
continue;
}
next_sibling:
if (cur == elem)
break;
if (cur->type == XML_ELEMENT_NODE) {
if (XML_NSMAP_NOTEMPTY(nsMap)) {
/*
* Pop mappings.
*/
while ((nsMap->last != NULL) &&
(nsMap->last->depth >= depth))
{
XML_NSMAP_POP(nsMap, mi)
}
/*
* Unshadow.
*/
XML_NSMAP_FOREACH(nsMap, mi) {
if (mi->shadowDepth >= depth)
mi->shadowDepth = -1;
}
}
depth--;
}
if (cur->next != NULL)
cur = cur->next;
else {
if (cur->type == XML_ATTRIBUTE_NODE) {
cur = cur->parent;
goto into_content;
}
cur = cur->parent;
goto next_sibling;
}
} while (cur != NULL);
if (listRedund) {
for (i = 0, j = 0; i < nbRedund; i++, j += 2) {
xmlFreeNs(listRedund[j]);
}
xmlFree(listRedund);
}
if (nsMap != NULL)
xmlDOMWrapNsMapFree(nsMap);
return (ret);
}
/*
* xmlDOMWrapAdoptBranch:
* @ctxt: the optional context for custom processing
* @sourceDoc: the optional sourceDoc
* @node: the element-node to start with
* @destDoc: the destination doc for adoption
* @destParent: the optional new parent of @node in @destDoc
* @options: option flags
*
* Ensures that ns-references point to @destDoc: either to
* elements->nsDef entries if @destParent is given, or to
* @destDoc->oldNs otherwise.
* If @destParent is given, it ensures that the tree is namespace
* wellformed by creating additional ns-decls where needed.
* Note that, since prefixes of already existent ns-decls can be
* shadowed by this process, it could break QNames in attribute
* values or element content.
*
* NOTE: This function was not intensively tested.
*
* Returns 0 if succeeded, -1 otherwise and on API/internal errors.
*/
static int
xmlDOMWrapAdoptBranch(xmlDOMWrapCtxtPtr ctxt,
xmlDocPtr sourceDoc ATTRIBUTE_UNUSED,
xmlNodePtr node,
xmlDocPtr destDoc,
xmlNodePtr destParent,
int options ATTRIBUTE_UNUSED)
{
int ret = 0;
xmlNodePtr cur, curElem = NULL;
xmlNsMapPtr nsMap = NULL;
xmlNsMapItemPtr mi;
xmlNsPtr ns = NULL;
int depth = -1;
/* gather @parent's ns-decls. */
int parnsdone;
/* @ancestorsOnly should be set per option. */
int ancestorsOnly = 0;
/*
* Get the ns-map from the context if available.
*/
if (ctxt)
nsMap = (xmlNsMapPtr) ctxt->namespaceMap;
/*
* Disable search for ns-decls in the parent-axis of the
* destination element, if:
* 1) there's no destination parent
* 2) custom ns-reference handling is used
*/
if ((destParent == NULL) ||
(ctxt && ctxt->getNsForNodeFunc))
{
parnsdone = 1;
} else
parnsdone = 0;
cur = node;
while (cur != NULL) {
if (cur->doc != destDoc) {
if (xmlNodeSetDoc(cur, destDoc) < 0)
ret = -1;
}
switch (cur->type) {
case XML_XINCLUDE_START:
case XML_XINCLUDE_END:
/*
* TODO
*/
ret = -1;
goto leave_node;
case XML_ELEMENT_NODE:
curElem = cur;
depth++;
/*
* Namespace declarations.
* - ns->href and ns->prefix are never in the dict, so
* we need not move the values over to the destination dict.
* - Note that for custom handling of ns-references,
* the ns-decls need not be stored in the ns-map,
* since they won't be referenced by node->ns.
*/
if ((cur->nsDef) &&
((ctxt == NULL) || (ctxt->getNsForNodeFunc == NULL)))
{
if (! parnsdone) {
/*
* Gather @parent's in-scope ns-decls.
*/
if (xmlDOMWrapNSNormGatherInScopeNs(&nsMap,
destParent) == -1)
ret = -1;
parnsdone = 1;
}
for (ns = cur->nsDef; ns != NULL; ns = ns->next) {
/*
* NOTE: ns->prefix and ns->href are never in the dict.
*/
/*
* Does it shadow any ns-decl?
*/
if (XML_NSMAP_NOTEMPTY(nsMap)) {
XML_NSMAP_FOREACH(nsMap, mi) {
if ((mi->depth >= XML_TREE_NSMAP_PARENT) &&
(mi->shadowDepth == -1) &&
((ns->prefix == mi->newNs->prefix) ||
xmlStrEqual(ns->prefix,
mi->newNs->prefix))) {
mi->shadowDepth = depth;
}
}
}
/*
* Push mapping.
*/
if (xmlDOMWrapNsMapAddItem(&nsMap, -1,
ns, ns, depth) == NULL)
ret = -1;
}
}
/* Falls through. */
case XML_ATTRIBUTE_NODE:
/* No namespace, no fun. */
if (cur->ns == NULL)
goto ns_end;
if (! parnsdone) {
if (xmlDOMWrapNSNormGatherInScopeNs(&nsMap,
destParent) == -1)
ret = -1;
parnsdone = 1;
}
/*
* Adopt ns-references.
*/
if (XML_NSMAP_NOTEMPTY(nsMap)) {
/*
* Search for a mapping.
*/
XML_NSMAP_FOREACH(nsMap, mi) {
if ((mi->shadowDepth == -1) &&
(cur->ns == mi->oldNs)) {
cur->ns = mi->newNs;
goto ns_end;
}
}
}
/*
* No matching namespace in scope. We need a new one.
*/
if ((ctxt) && (ctxt->getNsForNodeFunc)) {
/*
* User-defined behaviour.
*/
ns = ctxt->getNsForNodeFunc(ctxt, cur,
cur->ns->href, cur->ns->prefix);
/*
* Insert mapping if ns is available; it's the users fault
* if not.
*/
if (xmlDOMWrapNsMapAddItem(&nsMap, -1,
cur->ns, ns, XML_TREE_NSMAP_CUSTOM) == NULL)
ret = -1;
cur->ns = ns;
} else {
/*
* Acquire a normalized ns-decl and add it to the map.
*/
if (xmlDOMWrapNSNormAcquireNormalizedNs(destDoc,
/* ns-decls on curElem or on destDoc->oldNs */
destParent ? curElem : NULL,
cur->ns, &ns,
&nsMap, depth,
ancestorsOnly,
/* ns-decls must be prefixed for attributes. */
(cur->type == XML_ATTRIBUTE_NODE) ? 1 : 0) == -1)
ret = -1;
cur->ns = ns;
}
ns_end:
if (cur->type == XML_ELEMENT_NODE) {
cur->psvi = NULL;
cur->line = 0;
cur->extra = 0;
/*
* Walk attributes.
*/
if (cur->properties != NULL) {
/*
* Process first attribute node.
*/
cur = (xmlNodePtr) cur->properties;
continue;
}
}
break;
case XML_TEXT_NODE:
case XML_CDATA_SECTION_NODE:
case XML_PI_NODE:
case XML_COMMENT_NODE:
case XML_ENTITY_REF_NODE:
goto leave_node;
default:
ret = -1;
}
/*
* Walk the tree.
*/
if (cur->children != NULL) {
cur = cur->children;
continue;
}
leave_node:
if (cur == node)
break;
if ((cur->type == XML_ELEMENT_NODE) ||
(cur->type == XML_XINCLUDE_START) ||
(cur->type == XML_XINCLUDE_END))
{
/*
* TODO: Do we expect nsDefs on XML_XINCLUDE_START?
*/
if (XML_NSMAP_NOTEMPTY(nsMap)) {
/*
* Pop mappings.
*/
while ((nsMap->last != NULL) &&
(nsMap->last->depth >= depth))
{
XML_NSMAP_POP(nsMap, mi)
}
/*
* Unshadow.
*/
XML_NSMAP_FOREACH(nsMap, mi) {
if (mi->shadowDepth >= depth)
mi->shadowDepth = -1;
}
}
depth--;
}
if (cur->next != NULL)
cur = cur->next;
else if ((cur->type == XML_ATTRIBUTE_NODE) &&
(cur->parent->children != NULL))
{
cur = cur->parent->children;
} else {
cur = cur->parent;
goto leave_node;
}
}
/*
* Cleanup.
*/
if (nsMap != NULL) {
if ((ctxt) && (ctxt->namespaceMap == nsMap)) {
/*
* Just cleanup the map but don't free.
*/
if (nsMap->first) {
if (nsMap->pool)
nsMap->last->next = nsMap->pool;
nsMap->pool = nsMap->first;
nsMap->first = NULL;
}
} else
xmlDOMWrapNsMapFree(nsMap);
}
return(ret);
}
/*
* xmlDOMWrapCloneNode:
* @ctxt: the optional context for custom processing
* @sourceDoc: the optional sourceDoc
* @node: the node to start with
* @resNode: the clone of the given @node
* @destDoc: the destination doc
* @destParent: the optional new parent of @node in @destDoc
* @deep: descend into child if set
* @options: option flags
*
* References of out-of scope ns-decls are remapped to point to @destDoc:
* 1) If @destParent is given, then nsDef entries on element-nodes are used
* 2) If *no* @destParent is given, then @destDoc->oldNs entries are used.
* This is the case when you don't know already where the cloned branch
* will be added to.
*
* If @destParent is given, it ensures that the tree is namespace
* wellformed by creating additional ns-decls where needed.
* Note that, since prefixes of already existent ns-decls can be
* shadowed by this process, it could break QNames in attribute
* values or element content.
* TODO:
* 1) What to do with XInclude? Currently this returns an error for XInclude.
*
* Returns 0 if the operation succeeded,
* 1 if a node of unsupported (or not yet supported) type was given,
* -1 on API/internal errors.
*/
int
xmlDOMWrapCloneNode(xmlDOMWrapCtxtPtr ctxt,
xmlDocPtr sourceDoc,
xmlNodePtr node,
xmlNodePtr *resNode,
xmlDocPtr destDoc,
xmlNodePtr destParent,
int deep,
int options ATTRIBUTE_UNUSED)
{
int ret = 0;
xmlNodePtr cur, cloneElem = NULL;
xmlNsMapPtr nsMap = NULL;
xmlNsMapItemPtr mi;
xmlNsPtr ns;
int depth = -1;
/* int adoptStr = 1; */
/* gather @parent's ns-decls. */
int parnsdone = 0;
/*
* @ancestorsOnly:
* TODO: @ancestorsOnly should be set per option.
*
*/
int ancestorsOnly = 0;
xmlNodePtr resultClone = NULL, clone = NULL, parentClone = NULL, prevClone = NULL;
xmlNsPtr cloneNs = NULL, *cloneNsDefSlot = NULL;
xmlDictPtr dict; /* The destination dict */
if ((node == NULL) || (resNode == NULL) || (destDoc == NULL) ||
((destParent != NULL) && (destParent->doc != destDoc)))
return(-1);
/*
* TODO: Initially we support only element-nodes.
*/
if (node->type != XML_ELEMENT_NODE)
return(1);
/*
* Check node->doc sanity.
*/
if ((node->doc != NULL) && (sourceDoc != NULL) &&
(node->doc != sourceDoc)) {
/*
* Might be an XIncluded node.
*/
return (-1);
}
if (sourceDoc == NULL)
sourceDoc = node->doc;
if (sourceDoc == NULL)
return (-1);
dict = destDoc->dict;
/*
* Reuse the namespace map of the context.
*/
if (ctxt)
nsMap = (xmlNsMapPtr) ctxt->namespaceMap;
*resNode = NULL;
cur = node;
while (cur != NULL) {
if (cur->doc != sourceDoc) {
/*
* We'll assume XIncluded nodes if the doc differs.
* TODO: Do we need to reconciliate XIncluded nodes?
* TODO: This here returns -1 in this case.
*/
goto internal_error;
}
/*
* Create a new node.
*/
switch (cur->type) {
case XML_XINCLUDE_START:
case XML_XINCLUDE_END:
/*
* TODO: What to do with XInclude?
*/
goto internal_error;
break;
case XML_ELEMENT_NODE:
case XML_TEXT_NODE:
case XML_CDATA_SECTION_NODE:
case XML_COMMENT_NODE:
case XML_PI_NODE:
case XML_DOCUMENT_FRAG_NODE:
case XML_ENTITY_REF_NODE:
/*
* Nodes of xmlNode structure.
*/
clone = (xmlNodePtr) xmlMalloc(sizeof(xmlNode));
if (clone == NULL)
goto internal_error;
memset(clone, 0, sizeof(xmlNode));
/*
* Set hierarchical links.
*/
if (resultClone != NULL) {
clone->parent = parentClone;
if (prevClone) {
prevClone->next = clone;
clone->prev = prevClone;
} else
parentClone->children = clone;
parentClone->last = clone;
} else
resultClone = clone;
break;
case XML_ATTRIBUTE_NODE:
/*
* Attributes (xmlAttr).
*/
/* Use xmlRealloc to avoid -Warray-bounds warning */
clone = (xmlNodePtr) xmlRealloc(NULL, sizeof(xmlAttr));
if (clone == NULL)
goto internal_error;
memset(clone, 0, sizeof(xmlAttr));
/*
* Set hierarchical links.
* TODO: Change this to add to the end of attributes.
*/
if (resultClone != NULL) {
clone->parent = parentClone;
if (prevClone) {
prevClone->next = clone;
clone->prev = prevClone;
} else
parentClone->properties = (xmlAttrPtr) clone;
} else
resultClone = clone;
break;
default:
/*
* TODO QUESTION: Any other nodes expected?
*/
goto internal_error;
}
clone->type = cur->type;
clone->doc = destDoc;
/*
* Clone the name of the node if any.
*/
if (cur->name == xmlStringText)
clone->name = xmlStringText;
else if (cur->name == xmlStringTextNoenc)
/*
* NOTE: Although xmlStringTextNoenc is never assigned to a node
* in tree.c, it might be set in Libxslt via
* "xsl:disable-output-escaping".
*/
clone->name = xmlStringTextNoenc;
else if (cur->name == xmlStringComment)
clone->name = xmlStringComment;
else if (cur->name != NULL) {
if (dict != NULL)
clone->name = xmlDictLookup(dict, cur->name, -1);
else
clone->name = xmlStrdup(cur->name);
if (clone->name == NULL)
goto internal_error;
}
switch (cur->type) {
case XML_XINCLUDE_START:
case XML_XINCLUDE_END:
/*
* TODO
*/
return (-1);
case XML_ELEMENT_NODE:
cloneElem = clone;
depth++;
/*
* Namespace declarations.
*/
if (cur->nsDef != NULL) {
if (! parnsdone) {
if (destParent && (ctxt == NULL)) {
/*
* Gather @parent's in-scope ns-decls.
*/
if (xmlDOMWrapNSNormGatherInScopeNs(&nsMap,
destParent) == -1)
goto internal_error;
}
parnsdone = 1;
}
/*
* Clone namespace declarations.
*/
cloneNsDefSlot = &(clone->nsDef);
for (ns = cur->nsDef; ns != NULL; ns = ns->next) {
/*
* Create a new xmlNs.
*/
cloneNs = (xmlNsPtr) xmlMalloc(sizeof(xmlNs));
if (cloneNs == NULL)
goto internal_error;
memset(cloneNs, 0, sizeof(xmlNs));
cloneNs->type = XML_LOCAL_NAMESPACE;
if (ns->href != NULL) {
cloneNs->href = xmlStrdup(ns->href);
if (cloneNs->href == NULL) {
xmlFreeNs(cloneNs);
goto internal_error;
}
}
if (ns->prefix != NULL) {
cloneNs->prefix = xmlStrdup(ns->prefix);
if (cloneNs->prefix == NULL) {
xmlFreeNs(cloneNs);
goto internal_error;
}
}
*cloneNsDefSlot = cloneNs;
cloneNsDefSlot = &(cloneNs->next);
/*
* Note that for custom handling of ns-references,
* the ns-decls need not be stored in the ns-map,
* since they won't be referenced by node->ns.
*/
if ((ctxt == NULL) ||
(ctxt->getNsForNodeFunc == NULL))
{
/*
* Does it shadow any ns-decl?
*/
if (XML_NSMAP_NOTEMPTY(nsMap)) {
XML_NSMAP_FOREACH(nsMap, mi) {
if ((mi->depth >= XML_TREE_NSMAP_PARENT) &&
(mi->shadowDepth == -1) &&
((ns->prefix == mi->newNs->prefix) ||
xmlStrEqual(ns->prefix,
mi->newNs->prefix))) {
/*
* Mark as shadowed at the current
* depth.
*/
mi->shadowDepth = depth;
}
}
}
/*
* Push mapping.
*/
if (xmlDOMWrapNsMapAddItem(&nsMap, -1,
ns, cloneNs, depth) == NULL)
goto internal_error;
}
}
}
/* cur->ns will be processed further down. */
break;
case XML_ATTRIBUTE_NODE:
/* IDs will be processed further down. */
/* cur->ns will be processed further down. */
break;
case XML_PI_NODE:
case XML_COMMENT_NODE:
case XML_TEXT_NODE:
case XML_CDATA_SECTION_NODE:
/*
* Note that this will also cover the values of attributes.
*/
if (cur->content != NULL) {
clone->content = xmlStrdup(cur->content);
if (clone->content == NULL)
goto internal_error;
}
goto leave_node;
case XML_ENTITY_REF_NODE:
if (sourceDoc != destDoc) {
if ((destDoc->intSubset) || (destDoc->extSubset)) {
xmlEntityPtr ent;
/*
* Different doc: Assign new entity-node if available.
*/
ent = xmlGetDocEntity(destDoc, cur->name);
if (ent != NULL) {
clone->content = ent->content;
clone->children = (xmlNodePtr) ent;
clone->last = (xmlNodePtr) ent;
}
}
} else {
/*
* Same doc: Use the current node's entity declaration
* and value.
*/
clone->content = cur->content;
clone->children = cur->children;
clone->last = cur->last;
}
goto leave_node;
default:
goto internal_error;
}
if (cur->ns == NULL)
goto end_ns_reference;
/* handle_ns_reference: */
/*
** The following will take care of references to ns-decls ********
** and is intended only for element- and attribute-nodes.
**
*/
if (! parnsdone) {
if (destParent && (ctxt == NULL)) {
if (xmlDOMWrapNSNormGatherInScopeNs(&nsMap, destParent) == -1)
goto internal_error;
}
parnsdone = 1;
}
/*
* Adopt ns-references.
*/
if (XML_NSMAP_NOTEMPTY(nsMap)) {
/*
* Search for a mapping.
*/
XML_NSMAP_FOREACH(nsMap, mi) {
if ((mi->shadowDepth == -1) &&
(cur->ns == mi->oldNs)) {
/*
* This is the nice case: a mapping was found.
*/
clone->ns = mi->newNs;
goto end_ns_reference;
}
}
}
/*
* No matching namespace in scope. We need a new one.
*/
if ((ctxt != NULL) && (ctxt->getNsForNodeFunc != NULL)) {
/*
* User-defined behaviour.
*/
ns = ctxt->getNsForNodeFunc(ctxt, cur,
cur->ns->href, cur->ns->prefix);
/*
* Add user's mapping.
*/
if (xmlDOMWrapNsMapAddItem(&nsMap, -1,
cur->ns, ns, XML_TREE_NSMAP_CUSTOM) == NULL)
goto internal_error;
clone->ns = ns;
} else {
/*
* Acquire a normalized ns-decl and add it to the map.
*/
if (xmlDOMWrapNSNormAcquireNormalizedNs(destDoc,
/* ns-decls on cloneElem or on destDoc->oldNs */
destParent ? cloneElem : NULL,
cur->ns, &ns,
&nsMap, depth,
/* if we need to search only in the ancestor-axis */
ancestorsOnly,
/* ns-decls must be prefixed for attributes. */
(cur->type == XML_ATTRIBUTE_NODE) ? 1 : 0) == -1)
goto internal_error;
clone->ns = ns;
}
end_ns_reference:
/*
* Some post-processing.
*
* Handle ID attributes.
*/
if ((clone->type == XML_ATTRIBUTE_NODE) &&
(clone->parent != NULL))
{
int res;
res = xmlIsID(destDoc, clone->parent, (xmlAttrPtr) clone);
if (res < 0)
goto internal_error;
if (res == 1) {
xmlChar *idVal;
idVal = xmlNodeGetContent(cur);
if (idVal == NULL)
goto internal_error;
if (xmlAddIDSafe((xmlAttrPtr) cur, idVal) < 0) {
xmlFree(idVal);
goto internal_error;
}
xmlFree(idVal);
}
}
/*
**
** The following will traverse the tree **************************
**
*
* Walk the element's attributes before descending into child-nodes.
*/
if ((cur->type == XML_ELEMENT_NODE) && (cur->properties != NULL)) {
prevClone = NULL;
parentClone = clone;
cur = (xmlNodePtr) cur->properties;
continue;
}
into_content:
/*
* Descend into child-nodes.
*/
if (cur->children != NULL) {
if (deep || (cur->type == XML_ATTRIBUTE_NODE)) {
prevClone = NULL;
parentClone = clone;
cur = cur->children;
continue;
}
}
leave_node:
/*
* At this point we are done with the node, its content
* and an element-nodes's attribute-nodes.
*/
if (cur == node)
break;
if ((cur->type == XML_ELEMENT_NODE) ||
(cur->type == XML_XINCLUDE_START) ||
(cur->type == XML_XINCLUDE_END)) {
/*
* TODO: Do we expect nsDefs on XML_XINCLUDE_START?
*/
if (XML_NSMAP_NOTEMPTY(nsMap)) {
/*
* Pop mappings.
*/
while ((nsMap->last != NULL) &&
(nsMap->last->depth >= depth))
{
XML_NSMAP_POP(nsMap, mi)
}
/*
* Unshadow.
*/
XML_NSMAP_FOREACH(nsMap, mi) {
if (mi->shadowDepth >= depth)
mi->shadowDepth = -1;
}
}
depth--;
}
if (cur->next != NULL) {
prevClone = clone;
cur = cur->next;
} else if (cur->type != XML_ATTRIBUTE_NODE) {
clone = clone->parent;
if (clone != NULL)
parentClone = clone->parent;
/*
* Process parent --> next;
*/
cur = cur->parent;
goto leave_node;
} else {
/* This is for attributes only. */
clone = clone->parent;
parentClone = clone->parent;
/*
* Process parent-element --> children.
*/
cur = cur->parent;
goto into_content;
}
}
goto exit;
internal_error:
ret = -1;
exit:
/*
* Cleanup.
*/
if (nsMap != NULL) {
if ((ctxt) && (ctxt->namespaceMap == nsMap)) {
/*
* Just cleanup the map but don't free.
*/
if (nsMap->first) {
if (nsMap->pool)
nsMap->last->next = nsMap->pool;
nsMap->pool = nsMap->first;
nsMap->first = NULL;
}
} else
xmlDOMWrapNsMapFree(nsMap);
}
/*
* TODO: Should we try a cleanup of the cloned node in case of a
* fatal error?
*/
*resNode = resultClone;
return (ret);
}
/*
* xmlDOMWrapAdoptAttr:
* @ctxt: the optional context for custom processing
* @sourceDoc: the optional source document of attr
* @attr: the attribute-node to be adopted
* @destDoc: the destination doc for adoption
* @destParent: the optional new parent of @attr in @destDoc
* @options: option flags
*
* @attr is adopted by @destDoc.
* Ensures that ns-references point to @destDoc: either to
* elements->nsDef entries if @destParent is given, or to
* @destDoc->oldNs otherwise.
*
* Returns 0 if succeeded, -1 otherwise and on API/internal errors.
*/
static int
xmlDOMWrapAdoptAttr(xmlDOMWrapCtxtPtr ctxt,
xmlDocPtr sourceDoc ATTRIBUTE_UNUSED,
xmlAttrPtr attr,
xmlDocPtr destDoc,
xmlNodePtr destParent,
int options ATTRIBUTE_UNUSED)
{
int ret = 0;
if ((attr == NULL) || (destDoc == NULL))
return (-1);
if (attr->doc != destDoc) {
if (xmlSetTreeDoc((xmlNodePtr) attr, destDoc) < 0)
ret = -1;
}
if (attr->ns != NULL) {
xmlNsPtr ns = NULL;
if (ctxt != NULL) {
/* TODO: User defined. */
}
/* XML Namespace. */
if (IS_STR_XML(attr->ns->prefix)) {
ns = xmlTreeEnsureXMLDecl(destDoc);
} else if (destParent == NULL) {
/*
* Store in @destDoc->oldNs.
*/
ns = xmlDOMWrapStoreNs(destDoc, attr->ns->href, attr->ns->prefix);
} else {
/*
* Declare on @destParent.
*/
if (xmlSearchNsByNamespaceStrict(destDoc, destParent, attr->ns->href,
&ns, 1) == -1)
ret = -1;
if (ns == NULL) {
ns = xmlDOMWrapNSNormDeclareNsForced(destDoc, destParent,
attr->ns->href, attr->ns->prefix, 1);
}
}
if (ns == NULL)
ret = -1;
attr->ns = ns;
}
return (ret);
}
/*
* xmlDOMWrapAdoptNode:
* @ctxt: the optional context for custom processing
* @sourceDoc: the optional sourceDoc
* @node: the node to start with
* @destDoc: the destination doc
* @destParent: the optional new parent of @node in @destDoc
* @options: option flags
*
* References of out-of scope ns-decls are remapped to point to @destDoc:
* 1) If @destParent is given, then nsDef entries on element-nodes are used
* 2) If *no* @destParent is given, then @destDoc->oldNs entries are used
* This is the case when you have an unlinked node and just want to move it
* to the context of
*
* If @destParent is given, it ensures that the tree is namespace
* wellformed by creating additional ns-decls where needed.
* Note that, since prefixes of already existent ns-decls can be
* shadowed by this process, it could break QNames in attribute
* values or element content.
* NOTE: This function was not intensively tested.
*
* Returns 0 if the operation succeeded,
* 1 if a node of unsupported type was given,
* 2 if a node of not yet supported type was given and
* -1 on API/internal errors.
*/
int
xmlDOMWrapAdoptNode(xmlDOMWrapCtxtPtr ctxt,
xmlDocPtr sourceDoc,
xmlNodePtr node,
xmlDocPtr destDoc,
xmlNodePtr destParent,
int options)
{
int ret = 0;
if ((node == NULL) || (node->type == XML_NAMESPACE_DECL) ||
(destDoc == NULL) ||
((destParent != NULL) && (destParent->doc != destDoc)))
return(-1);
/*
* Check node->doc sanity.
*/
if (sourceDoc == NULL) {
sourceDoc = node->doc;
} else if (node->doc != sourceDoc) {
return (-1);
}
/*
* TODO: Shouldn't this be allowed?
*/
if (sourceDoc == destDoc)
return (-1);
switch (node->type) {
case XML_ELEMENT_NODE:
case XML_ATTRIBUTE_NODE:
case XML_TEXT_NODE:
case XML_CDATA_SECTION_NODE:
case XML_ENTITY_REF_NODE:
case XML_PI_NODE:
case XML_COMMENT_NODE:
break;
case XML_DOCUMENT_FRAG_NODE:
/* TODO: Support document-fragment-nodes. */
return (2);
default:
return (1);
}
/*
* Unlink only if @node was not already added to @destParent.
*/
if ((node->parent != NULL) && (destParent != node->parent))
xmlUnlinkNodeInternal(node);
if (node->type == XML_ELEMENT_NODE) {
return (xmlDOMWrapAdoptBranch(ctxt, sourceDoc, node,
destDoc, destParent, options));
} else if (node->type == XML_ATTRIBUTE_NODE) {
return (xmlDOMWrapAdoptAttr(ctxt, sourceDoc,
(xmlAttrPtr) node, destDoc, destParent, options));
} else {
if (node->doc != destDoc) {
if (xmlNodeSetDoc(node, destDoc) < 0)
ret = -1;
}
}
return (ret);
}
/************************************************************************
* *
* XHTML detection *
* *
************************************************************************/
#define XHTML_STRICT_PUBLIC_ID BAD_CAST \
"-//W3C//DTD XHTML 1.0 Strict//EN"
#define XHTML_STRICT_SYSTEM_ID BAD_CAST \
"http://www.w3.org/TR/xhtml1/DTD/xhtml1-strict.dtd"
#define XHTML_FRAME_PUBLIC_ID BAD_CAST \
"-//W3C//DTD XHTML 1.0 Frameset//EN"
#define XHTML_FRAME_SYSTEM_ID BAD_CAST \
"http://www.w3.org/TR/xhtml1/DTD/xhtml1-frameset.dtd"
#define XHTML_TRANS_PUBLIC_ID BAD_CAST \
"-//W3C//DTD XHTML 1.0 Transitional//EN"
#define XHTML_TRANS_SYSTEM_ID BAD_CAST \
"http://www.w3.org/TR/xhtml1/DTD/xhtml1-transitional.dtd"
/**
* xmlIsXHTML:
* @systemID: the system identifier
* @publicID: the public identifier
*
* Try to find if the document correspond to an XHTML DTD
*
* Returns 1 if true, 0 if not and -1 in case of error
*/
int
xmlIsXHTML(const xmlChar *systemID, const xmlChar *publicID) {
if ((systemID == NULL) && (publicID == NULL))
return(-1);
if (publicID != NULL) {
if (xmlStrEqual(publicID, XHTML_STRICT_PUBLIC_ID)) return(1);
if (xmlStrEqual(publicID, XHTML_FRAME_PUBLIC_ID)) return(1);
if (xmlStrEqual(publicID, XHTML_TRANS_PUBLIC_ID)) return(1);
}
if (systemID != NULL) {
if (xmlStrEqual(systemID, XHTML_STRICT_SYSTEM_ID)) return(1);
if (xmlStrEqual(systemID, XHTML_FRAME_SYSTEM_ID)) return(1);
if (xmlStrEqual(systemID, XHTML_TRANS_SYSTEM_ID)) return(1);
}
return(0);
}
/************************************************************************
* *
* Node callbacks *
* *
************************************************************************/
/**
* xmlRegisterNodeDefault:
* @func: function pointer to the new RegisterNodeFunc
*
* Registers a callback for node creation
*
* Returns the old value of the registration function
*/
xmlRegisterNodeFunc
xmlRegisterNodeDefault(xmlRegisterNodeFunc func)
{
xmlRegisterNodeFunc old = xmlRegisterNodeDefaultValue;
__xmlRegisterCallbacks = 1;
xmlRegisterNodeDefaultValue = func;
return(old);
}
/**
* xmlDeregisterNodeDefault:
* @func: function pointer to the new DeregisterNodeFunc
*
* Registers a callback for node destruction
*
* Returns the previous value of the deregistration function
*/
xmlDeregisterNodeFunc
xmlDeregisterNodeDefault(xmlDeregisterNodeFunc func)
{
xmlDeregisterNodeFunc old = xmlDeregisterNodeDefaultValue;
__xmlRegisterCallbacks = 1;
xmlDeregisterNodeDefaultValue = func;
return(old);
}