kc3-lang/libxml2/pattern.c

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• Hash : ffa7b7e2
  Author :
  Date : 2003-12-05T16:10:21
  

  fixed the pattern interfaces but not yet the parser to handle the
  
  * pattern.c xmlreader.c xmllint.c include/libxml/pattern.h
    include/libxml/xmlreader.h: fixed the pattern interfaces
    but not yet the parser to handle the namespaces.
  * doc/examples/reader3.c doc/*: fixed the example, rebuilt the docs.
  Daniel
  

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• pattern.c

• /*
   * pattern.c: Implemetation of selectors for nodes
   *
   * Reference:
   *   http://www.w3.org/TR/2001/REC-xmlschema-1-20010502/
   *   to some extent 
   *   http://www.w3.org/TR/1999/REC-xml-19991116
   *
   * See Copyright for the status of this software.
   *
   * daniel@veillard.com
   */
  
  #define IN_LIBXML
  #include "libxml.h"
  
  #include <string.h>
  #include <libxml/xmlmemory.h>
  #include <libxml/tree.h>
  #include <libxml/hash.h>
  #include <libxml/dict.h>
  #include <libxml/xmlerror.h>
  #include <libxml/parserInternals.h>
  #include <libxml/pattern.h>
  
  #ifdef LIBXML_PATTERN_ENABLED
  
  #define ERROR(a, b, c, d)
  #define ERROR5(a, b, c, d, e)
  
  /*
   * Types are private:
   */
  
  typedef enum {
      XML_OP_END=0,
      XML_OP_ROOT,
      XML_OP_ELEM,
      XML_OP_CHILD,
      XML_OP_ATTR,
      XML_OP_PARENT,
      XML_OP_ANCESTOR,
      XML_OP_NS,
      XML_OP_ALL
  } xmlPatOp;
  
  
  typedef struct _xmlStepOp xmlStepOp;
  typedef xmlStepOp *xmlStepOpPtr;
  struct _xmlStepOp {
      xmlPatOp op;
      const xmlChar *value;
      const xmlChar *value2;
  };
  
  struct _xmlPattern {
      void *data;    		/* the associated template */
      struct _xmlPattern *next; /* siblings */
      const xmlChar *pattern;	/* the pattern */
  
      /* TODO fix the statically allocated size steps[] */
      int nbStep;
      int maxStep;
      xmlStepOp steps[10];        /* ops for computation */
  };
  
  typedef struct _xmlPatParserContext xmlPatParserContext;
  typedef xmlPatParserContext *xmlPatParserContextPtr;
  struct _xmlPatParserContext {
      const xmlChar *cur;			/* the current char being parsed */
      const xmlChar *base;		/* the full expression */
      int	           error;		/* error code */
      xmlDictPtr     dict;		/* the dictionnary if any */
      xmlPatternPtr  comp;		/* the result */
      xmlNodePtr     elem;		/* the current node if any */    
      const xmlChar **namespaces;		/* the namespaces definitions */
      int   nb_namespaces;		/* the number of namespaces */
  };
  
  /************************************************************************
   * 									*
   * 			Type functions 					*
   * 									*
   ************************************************************************/
  
  /**
   * xmlNewPattern:
   *
   * Create a new XSLT Pattern
   *
   * Returns the newly allocated xmlPatternPtr or NULL in case of error
   */
  static xmlPatternPtr
  xmlNewPattern(void) {
      xmlPatternPtr cur;
  
      cur = (xmlPatternPtr) xmlMalloc(sizeof(xmlPattern));
      if (cur == NULL) {
  	ERROR(NULL, NULL, NULL,
  		"xmlNewPattern : malloc failed\n");
  	return(NULL);
      }
      memset(cur, 0, sizeof(xmlPattern));
      cur->maxStep = 10;
      return(cur);
  }
  
  /**
   * xmlFreePattern:
   * @comp:  an XSLT comp
   *
   * Free up the memory allocated by @comp
   */
  void
  xmlFreePattern(xmlPatternPtr comp) {
      xmlStepOpPtr op;
      int i;
  
      if (comp == NULL)
  	return;
      if (comp->pattern != NULL)
  	xmlFree((xmlChar *)comp->pattern);
      for (i = 0;i < comp->nbStep;i++) {
  	op = &comp->steps[i];
  	if (op->value != NULL)
  	    xmlFree((xmlChar *) op->value);
  	if (op->value2 != NULL)
  	    xmlFree((xmlChar *) op->value2);
      }
      memset(comp, -1, sizeof(xmlPattern));
      xmlFree(comp);
  }
  
  /**
   * xmlFreePatternList:
   * @comp:  an XSLT comp list
   *
   * Free up the memory allocated by all the elements of @comp
   */
  void
  xmlFreePatternList(xmlPatternPtr comp) {
      xmlPatternPtr cur;
  
      while (comp != NULL) {
  	cur = comp;
  	comp = comp->next;
  	xmlFreePattern(cur);
      }
  }
  
  /**
   * xmlNewPatParserContext:
   * @pattern:  the pattern context
   * @dict:  the inherited dictionnary or NULL
   * @namespaces: the prefix definitions, array of [URI, prefix] or NULL
   *
   * Create a new XML pattern parser context
   *
   * Returns the newly allocated xmlPatParserContextPtr or NULL in case of error
   */
  static xmlPatParserContextPtr
  xmlNewPatParserContext(const xmlChar *pattern, xmlDictPtr dict,
                         const xmlChar **namespaces) {
      xmlPatParserContextPtr cur;
  
      if (pattern == NULL)
          return(NULL);
  
      cur = (xmlPatParserContextPtr) xmlMalloc(sizeof(xmlPatParserContext));
      if (cur == NULL) {
  	ERROR(NULL, NULL, NULL,
  		"xmlNewPatParserContext : malloc failed\n");
  	return(NULL);
      }
      memset(cur, 0, sizeof(xmlPatParserContext));
      cur->dict = dict;
      cur->cur = pattern;
      cur->base = pattern;
      if (namespaces != NULL) {
          int i;
  	for (i = 0;namespaces[2 * i] != NULL;i++);
          cur->nb_namespaces = i;
      } else {
          cur->nb_namespaces = 0;
      }
      cur->namespaces = namespaces;
      return(cur);
  }
  
  /**
   * xmlFreePatParserContext:
   * @ctxt:  an XSLT parser context
   *
   * Free up the memory allocated by @ctxt
   */
  static void
  xmlFreePatParserContext(xmlPatParserContextPtr ctxt) {
      if (ctxt == NULL)
  	return;
      memset(ctxt, -1, sizeof(xmlPatParserContext));
      xmlFree(ctxt);
  }
  
  /**
   * xmlPatternAdd:
   * @comp:  the compiled match expression
   * @op:  an op
   * @value:  the first value
   * @value2:  the second value
   *
   * Add an step to an XSLT Compiled Match
   *
   * Returns -1 in case of failure, 0 otherwise.
   */
  static int
  xmlPatternAdd(xmlPatParserContextPtr ctxt ATTRIBUTE_UNUSED,
                  xmlPatternPtr comp,
                  xmlPatOp op, xmlChar * value, xmlChar * value2)
  {
      if (comp->nbStep >= 10) {
          ERROR(ctxt, NULL, NULL,
                           "xmlPatternAdd: overflow\n");
          return (-1);
      }
      comp->steps[comp->nbStep].op = op;
      comp->steps[comp->nbStep].value = value;
      comp->steps[comp->nbStep].value2 = value2;
      comp->nbStep++;
      return (0);
  }
  
  #if 0
  /**
   * xsltSwapTopPattern:
   * @comp:  the compiled match expression
   *
   * reverse the two top steps.
   */
  static void
  xsltSwapTopPattern(xmlPatternPtr comp) {
      int i;
      int j = comp->nbStep - 1;
  
      if (j > 0) {
  	register const xmlChar *tmp;
  	register xmlPatOp op;
  	i = j - 1;
  	tmp = comp->steps[i].value;
  	comp->steps[i].value = comp->steps[j].value;
  	comp->steps[j].value = tmp;
  	tmp = comp->steps[i].value2;
  	comp->steps[i].value2 = comp->steps[j].value2;
  	comp->steps[j].value2 = tmp;
  	op = comp->steps[i].op;
  	comp->steps[i].op = comp->steps[j].op;
  	comp->steps[j].op = op;
      }
  }
  #endif
  
  /**
   * xmlReversePattern:
   * @comp:  the compiled match expression
   *
   * reverse all the stack of expressions
   */
  static void
  xmlReversePattern(xmlPatternPtr comp) {
      int i = 0;
      int j = comp->nbStep - 1;
  
      while (j > i) {
  	register const xmlChar *tmp;
  	register xmlPatOp op;
  	tmp = comp->steps[i].value;
  	comp->steps[i].value = comp->steps[j].value;
  	comp->steps[j].value = tmp;
  	tmp = comp->steps[i].value2;
  	comp->steps[i].value2 = comp->steps[j].value2;
  	comp->steps[j].value2 = tmp;
  	op = comp->steps[i].op;
  	comp->steps[i].op = comp->steps[j].op;
  	comp->steps[j].op = op;
  	j--;
  	i++;
      }
      comp->steps[comp->nbStep++].op = XML_OP_END;
  }
  
  /************************************************************************
   * 									*
   * 		The interpreter for the precompiled patterns		*
   * 									*
   ************************************************************************/
  
  /**
   * xmlPatMatch:
   * @comp: the precompiled pattern
   * @node: a node
   *
   * Test wether the node matches the pattern
   *
   * Returns 1 if it matches, 0 if it doesn't and -1 in case of failure
   */
  static int
  xmlPatMatch(xmlPatternPtr comp, xmlNodePtr node) {
      int i;
      xmlStepOpPtr step;
  
      if ((comp == NULL) || (node == NULL)) return(-1);
      for (i = 0;i < comp->nbStep;i++) {
  	step = &comp->steps[i];
  	switch (step->op) {
              case XML_OP_END:
  		return(1);
              case XML_OP_ROOT:
  		if ((node->type == XML_DOCUMENT_NODE) ||
  #ifdef LIBXML_DOCB_ENABLED
  		    (node->type == XML_DOCB_DOCUMENT_NODE) ||
  #endif
  		    (node->type == XML_HTML_DOCUMENT_NODE))
  		    continue;
  		return(0);
              case XML_OP_ELEM:
  		if (node->type != XML_ELEMENT_NODE)
  		    return(0);
  		if (step->value == NULL)
  		    continue;
  		if (step->value[0] != node->name[0])
  		    return(0);
  		if (!xmlStrEqual(step->value, node->name))
  		    return(0);
  
  		/* Namespace test */
  		if (node->ns == NULL) {
  		    if (step->value2 != NULL)
  			return(0);
  		} else if (node->ns->href != NULL) {
  		    if (step->value2 == NULL)
  			return(0);
  		    if (!xmlStrEqual(step->value2, node->ns->href))
  			return(0);
  		}
  		continue;
              case XML_OP_CHILD: {
  		xmlNodePtr lst;
  
  		if ((node->type != XML_ELEMENT_NODE) &&
  		    (node->type != XML_DOCUMENT_NODE) &&
  #ifdef LIBXML_DOCB_ENABLED
  		    (node->type != XML_DOCB_DOCUMENT_NODE) &&
  #endif
  		    (node->type != XML_HTML_DOCUMENT_NODE))
  		    return(0);
  
  		lst = node->children;
  
  		if (step->value != NULL) {
  		    while (lst != NULL) {
  			if ((lst->type == XML_ELEMENT_NODE) &&
  			    (step->value[0] == lst->name[0]) &&
  			    (xmlStrEqual(step->value, lst->name)))
  			    break;
  			lst = lst->next;
  		    }
  		    if (lst != NULL)
  			continue;
  		}
  		return(0);
  	    }
              case XML_OP_ATTR:
  		if (node->type != XML_ATTRIBUTE_NODE)
  		    return(0);
  		if (step->value != NULL) {
  		    if (step->value[0] != node->name[0])
  			return(0);
  		    if (!xmlStrEqual(step->value, node->name))
  			return(0);
  		}
  		/* Namespace test */
  		if (node->ns == NULL) {
  		    if (step->value2 != NULL)
  			return(0);
  		} else if (step->value2 != NULL) {
  		    if (!xmlStrEqual(step->value2, node->ns->href))
  			return(0);
  		}
  		continue;
              case XML_OP_PARENT:
  		if ((node->type == XML_DOCUMENT_NODE) ||
  		    (node->type == XML_HTML_DOCUMENT_NODE) ||
  #ifdef LIBXML_DOCB_ENABLED
  		    (node->type == XML_DOCB_DOCUMENT_NODE) ||
  #endif
  		    (node->type == XML_NAMESPACE_DECL))
  		    return(0);
  		node = node->parent;
  		if (node == NULL)
  		    return(0);
  		if (step->value == NULL)
  		    continue;
  		if (step->value[0] != node->name[0])
  		    return(0);
  		if (!xmlStrEqual(step->value, node->name))
  		    return(0);
  		/* Namespace test */
  		if (node->ns == NULL) {
  		    if (step->value2 != NULL)
  			return(0);
  		} else if (node->ns->href != NULL) {
  		    if (step->value2 == NULL)
  			return(0);
  		    if (!xmlStrEqual(step->value2, node->ns->href))
  			return(0);
  		}
  		continue;
              case XML_OP_ANCESTOR:
  		/* TODO: implement coalescing of ANCESTOR/NODE ops */
  		if (step->value == NULL) {
  		    i++;
  		    step = &comp->steps[i];
  		    if (step->op == XML_OP_ROOT)
  			return(1);
  		    if (step->op != XML_OP_ELEM)
  			return(0);
  		    if (step->value == NULL)
  			return(-1);
  		}
  		if (node == NULL)
  		    return(0);
  		if ((node->type == XML_DOCUMENT_NODE) ||
  		    (node->type == XML_HTML_DOCUMENT_NODE) ||
  #ifdef LIBXML_DOCB_ENABLED
  		    (node->type == XML_DOCB_DOCUMENT_NODE) ||
  #endif
  		    (node->type == XML_NAMESPACE_DECL))
  		    return(0);
  		node = node->parent;
  		while (node != NULL) {
  		    if (node == NULL)
  			return(0);
  		    if ((node->type == XML_ELEMENT_NODE) &&
  			(step->value[0] == node->name[0]) &&
  			(xmlStrEqual(step->value, node->name))) {
  			/* Namespace test */
  			if (node->ns == NULL) {
  			    if (step->value2 == NULL)
  				break;
  			} else if (node->ns->href != NULL) {
  			    if ((step->value2 != NULL) &&
  			        (xmlStrEqual(step->value2, node->ns->href)))
  				break;
  			}
  		    }
  		    node = node->parent;
  		}
  		if (node == NULL)
  		    return(0);
  		continue;
              case XML_OP_NS:
  		if (node->type != XML_ELEMENT_NODE)
  		    return(0);
  		if (node->ns == NULL) {
  		    if (step->value != NULL)
  			return(0);
  		} else if (node->ns->href != NULL) {
  		    if (step->value == NULL)
  			return(0);
  		    if (!xmlStrEqual(step->value, node->ns->href))
  			return(0);
  		}
  		break;
              case XML_OP_ALL:
  		if (node->type != XML_ELEMENT_NODE)
  		    return(0);
  		break;
  	}
      }
      return(1);
  }
  
  /************************************************************************
   *									*
   *			Dedicated parser for templates			*
   *									*
   ************************************************************************/
  
  #define TODO 								\
      xmlGenericError(xmlGenericErrorContext,				\
  	    "Unimplemented block at %s:%d\n",				\
              __FILE__, __LINE__);
  #define CUR (*ctxt->cur)
  #define SKIP(val) ctxt->cur += (val)
  #define NXT(val) ctxt->cur[(val)]
  #define CUR_PTR ctxt->cur
  
  #define SKIP_BLANKS 							\
      while (IS_BLANK(CUR)) NEXT
  
  #define CURRENT (*ctxt->cur)
  #define NEXT ((*ctxt->cur) ?  ctxt->cur++: ctxt->cur)
  
  
  #define PUSH(op, val, val2) 						\
      if (xmlPatternAdd(ctxt, ctxt->comp, (op), (val), (val2))) goto error;
  
  #define XSLT_ERROR(X)							\
      { xsltError(ctxt, __FILE__, __LINE__, X);			\
        ctxt->error = (X); return; }
  
  #define XSLT_ERROR0(X)							\
      { xsltError(ctxt, __FILE__, __LINE__, X);			\
        ctxt->error = (X); return(0); }
  
  #if 0
  /**
   * xmlPatScanLiteral:
   * @ctxt:  the XPath Parser context
   *
   * Parse an XPath Litteral:
   *
   * [29] Literal ::= '"' [^"]* '"'
   *                | "'" [^']* "'"
   *
   * Returns the Literal parsed or NULL
   */
  
  static xmlChar *
  xmlPatScanLiteral(xmlPatParserContextPtr ctxt) {
      const xmlChar *q, *cur;
      xmlChar *ret = NULL;
      int val, len;
  
      SKIP_BLANKS;
      if (CUR == '"') {
          NEXT;
  	cur = q = CUR_PTR;
  	val = xmlStringCurrentChar(NULL, cur, &len);
  	while ((IS_CHAR(val)) && (val != '"')) {
  	    cur += len;
  	    val = xmlStringCurrentChar(NULL, cur, &len);
  	}
  	if (!IS_CHAR(val)) {
  	    ctxt->error = 1;
  	    return(NULL);
  	} else {
  	    ret = xmlStrndup(q, cur - q);
          }
  	cur += len;
  	CUR_PTR = cur;
      } else if (CUR == '\'') {
          NEXT;
  	cur = q = CUR_PTR;
  	val = xmlStringCurrentChar(NULL, cur, &len);
  	while ((IS_CHAR(val)) && (val != '\'')) {
  	    cur += len;
  	    val = xmlStringCurrentChar(NULL, cur, &len);
  	}
  	if (!IS_CHAR(val)) {
  	    ctxt->error = 1;
  	    return(NULL);
  	} else {
  	    ret = xmlStrndup(q, cur - q);
          }
  	cur += len;
  	CUR_PTR = cur;
      } else {
  	/* XP_ERROR(XPATH_START_LITERAL_ERROR); */
  	ctxt->error = 1;
  	return(NULL);
      }
      return(ret);
  }
  #endif
  
  /**
   * xmlPatScanName:
   * @ctxt:  the XPath Parser context
   *
   * [4] NameChar ::= Letter | Digit | '.' | '-' | '_' | 
   *                  CombiningChar | Extender
   *
   * [5] Name ::= (Letter | '_' | ':') (NameChar)*
   *
   * [6] Names ::= Name (S Name)*
   *
   * Returns the Name parsed or NULL
   */
  
  static xmlChar *
  xmlPatScanName(xmlPatParserContextPtr ctxt) {
      const xmlChar *q, *cur;
      xmlChar *ret = NULL;
      int val, len;
  
      SKIP_BLANKS;
  
      cur = q = CUR_PTR;
      val = xmlStringCurrentChar(NULL, cur, &len);
      if (!IS_LETTER(val) && (val != '_') && (val != ':'))
  	return(NULL);
  
      while ((IS_LETTER(val)) || (IS_DIGIT(val)) ||
             (val == '.') || (val == '-') ||
  	   (val == '_') || 
  	   (IS_COMBINING(val)) ||
  	   (IS_EXTENDER(val))) {
  	cur += len;
  	val = xmlStringCurrentChar(NULL, cur, &len);
      }
      ret = xmlStrndup(q, cur - q);
      CUR_PTR = cur;
      return(ret);
  }
  
  /**
   * xmlPatScanNCName:
   * @ctxt:  the XPath Parser context
   *
   * Parses a non qualified name
   *
   * Returns the Name parsed or NULL
   */
  
  static xmlChar *
  xmlPatScanNCName(xmlPatParserContextPtr ctxt) {
      const xmlChar *q, *cur;
      xmlChar *ret = NULL;
      int val, len;
  
      SKIP_BLANKS;
  
      cur = q = CUR_PTR;
      val = xmlStringCurrentChar(NULL, cur, &len);
      if (!IS_LETTER(val) && (val != '_'))
  	return(NULL);
  
      while ((IS_LETTER(val)) || (IS_DIGIT(val)) ||
             (val == '.') || (val == '-') ||
  	   (val == '_') ||
  	   (IS_COMBINING(val)) ||
  	   (IS_EXTENDER(val))) {
  	cur += len;
  	val = xmlStringCurrentChar(NULL, cur, &len);
      }
      ret = xmlStrndup(q, cur - q);
      CUR_PTR = cur;
      return(ret);
  }
  
  #if 0
  /**
   * xmlPatScanQName:
   * @ctxt:  the XPath Parser context
   * @prefix:  the place to store the prefix
   *
   * Parse a qualified name
   *
   * Returns the Name parsed or NULL
   */
  
  static xmlChar *
  xmlPatScanQName(xmlPatParserContextPtr ctxt, xmlChar **prefix) {
      xmlChar *ret = NULL;
  
      *prefix = NULL;
      ret = xmlPatScanNCName(ctxt);
      if (CUR == ':') {
          *prefix = ret;
  	NEXT;
  	ret = xmlPatScanNCName(ctxt);
      }
      return(ret);
  }
  #endif
  
  /**
   * xmlCompileStepPattern:
   * @ctxt:  the compilation context
   *
   * Compile the Step Pattern and generates a precompiled
   * form suitable for fast matching.
   *
   * [3]    Step    ::=    '.' | NameTest
   * [4]    NameTest    ::=    QName | '*' | NCName ':' '*' 
   */
  
  static void
  xmlCompileStepPattern(xmlPatParserContextPtr ctxt) {
      xmlChar *token = NULL;
      xmlChar *name = NULL;
      const xmlChar *URI = NULL;
      xmlChar *URL = NULL;
  
      SKIP_BLANKS;
      if (CUR == '.') {
  	NEXT;
  	PUSH(XML_OP_ELEM, NULL, NULL);
  	return;
      }
      name = xmlPatScanNCName(ctxt);
      if (name == NULL) {
  	if (CUR == '*') {
  	    NEXT;
  	    PUSH(XML_OP_ALL, NULL, NULL);
  	    return;
  	} else {
  	    ERROR(NULL, NULL, NULL,
  		    "xmlCompileStepPattern : Name expected\n");
  	    ctxt->error = 1;
  	    return;
  	}
      }
      SKIP_BLANKS;
      if (CUR == ':') {
  	NEXT;
  	if (CUR != ':') {
  	    xmlChar *prefix = name;
  	    xmlNsPtr ns;
  
  	    /*
  	     * This is a namespace match
  	     */
  	    token = xmlPatScanName(ctxt);
  	    ns = xmlSearchNs(NULL, ctxt->elem, prefix);
  	    if (ns == NULL) {
  		ERROR5(NULL, NULL, NULL,
  	    "xmlCompileStepPattern : no namespace bound to prefix %s\n",
  				 prefix);
  		ctxt->error = 1;
  		goto error;
  	    } else {
  		URL = xmlStrdup(ns->href);
  	    }
  	    xmlFree(prefix);
  	    if (token == NULL) {
  		if (CUR == '*') {
  		    NEXT;
  		    PUSH(XML_OP_NS, URL, NULL);
  		} else {
  		    ERROR(NULL, NULL, NULL,
  			    "xmlCompileStepPattern : Name expected\n");
  		    ctxt->error = 1;
  		    goto error;
  		}
  	    } else {
  		PUSH(XML_OP_ELEM, token, URL);
  	    }
  	} else {
  	    NEXT;
  	    if (xmlStrEqual(token, (const xmlChar *) "child")) {
  		xmlFree(token);
  		token = xmlPatScanName(ctxt);
  		if (token == NULL) {
  	            if (CUR == '*') {
              	        NEXT;
  	                PUSH(XML_OP_ALL, token, NULL);
  	                return;
  	            } else {
  		        ERROR(NULL, NULL, NULL,
  			    "xmlCompileStepPattern : QName expected\n");
  		        ctxt->error = 1;
  		        goto error;
  		    }
  		}
  		TODO
  		/* URI = xsltGetQNameURI(ctxt->elem, &token); */
  		if (token == NULL) {
  		    ctxt->error = 1;
  		    goto error;
  		} else {
  		    name = xmlStrdup(token);
  		    if (URI != NULL)
  			URL = xmlStrdup(URI);
  		}
  		PUSH(XML_OP_CHILD, name, URL);
  	    } else if (xmlStrEqual(token, (const xmlChar *) "attribute")) {
  		xmlFree(token);
  		token = xmlPatScanName(ctxt);
  		if (token == NULL) {
  		    ERROR(NULL, NULL, NULL,
  			    "xmlCompileStepPattern : QName expected\n");
  		    ctxt->error = 1;
  		    goto error;
  		}
  		TODO
  		/* URI = xsltGetQNameURI(ctxt->elem, &token); */
  		if (token == NULL) {
  		    ctxt->error = 1;
  		    goto error;
  		} else {
  		    name = xmlStrdup(token);
  		    if (URI != NULL)
  			URL = xmlStrdup(URI);
  		}
  		PUSH(XML_OP_ATTR, name, URL);
  	    } else {
  		ERROR(NULL, NULL, NULL,
  		    "xmlCompileStepPattern : 'child' or 'attribute' expected\n");
  		ctxt->error = 1;
  		goto error;
  	    }
  	    xmlFree(token);
  	}
      } else if (CUR == '*') {
  	NEXT;
  	PUSH(XML_OP_ALL, token, NULL);
      } else {
  	if (name == NULL) {
  	    ctxt->error = 1;
  	    goto error;
  	}
  	PUSH(XML_OP_ELEM, name, NULL);
      }
      return;
  error:
      if (token != NULL)
  	xmlFree(token);
      if (name != NULL)
  	xmlFree(name);
  }
  
  /**
   * xmlCompilePathPattern:
   * @ctxt:  the compilation context
   *
   * Compile the Path Pattern and generates a precompiled
   * form suitable for fast matching.
   *
   * [5]    Path    ::=    ('.//')? ( Step '/' )* ( Step | '@' NameTest ) 
   */
  static void
  xmlCompilePathPattern(xmlPatParserContextPtr ctxt) {
      SKIP_BLANKS;
      if ((CUR == '/') && (NXT(1) == '/')) {
  	/*
  	 * since we reverse the query
  	 * a leading // can be safely ignored
  	 */
  	NEXT;
  	NEXT;
      } else if ((CUR == '.') && (NXT(1) == '/') && (NXT(2) == '/')) {
  	/*
  	 * a leading .// can be safely ignored
  	 */
  	NEXT;
  	NEXT;
  	NEXT;
      }
      if (CUR == '@') {
  	TODO
      } else {
  	xmlCompileStepPattern(ctxt);
  	SKIP_BLANKS;
  	while (CUR == '/') {
  	    if ((CUR == '/') && (NXT(1) == '/')) {
  	        PUSH(XML_OP_ANCESTOR, NULL, NULL);
  		NEXT;
  		NEXT;
  		SKIP_BLANKS;
  		xmlCompileStepPattern(ctxt);
  	    } else {
  	        PUSH(XML_OP_PARENT, NULL, NULL);
  		NEXT;
  		SKIP_BLANKS;
  		if ((CUR != 0) || (CUR == '|')) {
  		    xmlCompileStepPattern(ctxt);
  		}
  	    }
  	}
      }
  error:
      return;
  }
  /************************************************************************
   *									*
   *			The public interfaces				*
   *									*
   ************************************************************************/
  
  /**
   * xmlPatterncompile:
   * @pattern: the pattern to compile
   * @dict: an optional dictionnary for interned strings
   * @flags: compilation flags, undefined yet
   * @namespaces: the prefix definitions, array of [URI, prefix] or NULL
   *
   * Compile a pattern.
   *
   * Returns the compiled for of the pattern or NULL in case of error
   */
  xmlPatternPtr
  xmlPatterncompile(const xmlChar *pattern, xmlDict *dict, int flags,
                    const xmlChar **namespaces) {
      xmlPatternPtr ret = NULL;
      xmlPatParserContextPtr ctxt = NULL;
  
      ctxt = xmlNewPatParserContext(pattern, dict, namespaces);
      if (ctxt == NULL) goto error;
      ret = xmlNewPattern();
      if (ret == NULL) goto error;
      ctxt->comp = ret;
  
      xmlCompilePathPattern(ctxt);
      xmlFreePatParserContext(ctxt);
  
      xmlReversePattern(ret);
      return(ret);
  error:
      if (ctxt != NULL) xmlFreePatParserContext(ctxt);
      if (ret != NULL) xmlFreePattern(ret);
      return(NULL);
  }
  
  /**
   * xmlPatternMatch:
   * @comp: the precompiled pattern
   * @node: a node
   *
   * Test wether the node matches the pattern
   *
   * Returns 1 if it matches, 0 if it doesn't and -1 in case of failure
   */
  int
  xmlPatternMatch(xmlPatternPtr comp, xmlNodePtr node)
  {
      if ((comp == NULL) || (node == NULL))
          return(-1);
      return(xmlPatMatch(comp, node));
  }
  
  #endif /* LIBXML_PATTERN_ENABLED */
  

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