item_xmlfunc.cc 66.1 KB
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/* Copyright (C) 2000 MySQL AB & MySQL Finland AB & TCX DataKonsult AB

   This program is free software; you can redistribute it and/or modify
   it under the terms of the GNU General Public License as published by
   the Free Software Foundation; either version 2 of the License, or
   (at your option) any later version.

   This program is distributed in the hope that it will be useful,
   but WITHOUT ANY WARRANTY; without even the implied warranty of
   MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
   GNU General Public License for more details.

   You should have received a copy of the GNU General Public License
   along with this program; if not, write to the Free Software
   Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA  02111-1307  USA */


#ifdef __GNUC__
#pragma implementation
#endif

#include "mysql_priv.h"
#include "my_xml.h"


/*
  TODO: future development directions:
  1. add real constants for XPATH_NODESET_CMP and XPATH_NODESET
     into enum Type in item.h.
  2. add nodeset_to_nodeset_comparator
  3. add lacking functions:
       - name()
       - lang()
       - string()
       - id()
       - translate()
       - local-name()
       - starts-with()
       - namespace-uri()
       - substring-after()
       - normalize-space()
       - substring-before()
  4. add lacking axis:
       - following-sibling
       - following, 
       - preceding-sibling 
       - preceding
*/


/* Structure to store a parsed XML tree */
typedef struct my_xml_node_st
{
  uint level;                 /* level in XML tree, 0 means root node   */
  enum my_xml_node_type type; /* node type: node, or attribute, or text */
  uint parent;                /* link to the parent                     */
  const char *beg;            /* beginning of the name or text          */
  const char *end;            /* end of the name or text                */
  const char *tagend;         /* where this tag ends                    */
} MY_XML_NODE;


/* Lexical analizer token */
typedef struct my_xpath_lex_st
{
  int        term;  /* token type, see MY_XPATH_LEX_XXXXX below */
  const char *beg;  /* beginnign of the token                   */
  const char *end;  /* end of the token                         */
} MY_XPATH_LEX;


/* Structure to store nodesets */
typedef struct my_xpath_flt_st
{
  uint num;     /* absolute position in MY_XML_NODE array */
  uint pos;     /* relative position in context           */
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  uint size;    /* context size                           */
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} MY_XPATH_FLT;


/* XPath function creator */
typedef struct my_xpath_function_names_st
{
  const char *name;  /* function name           */
  size_t length;     /* function name length    */
  size_t minargs;    /* min number of arguments */
  size_t maxargs;    /* max number of arguments */
  Item *(*create)(struct my_xpath_st *xpath, Item **args, uint nargs);
} MY_XPATH_FUNC;


/* XPath query parser */
typedef struct my_xpath_st
{
  int debug;
  MY_XPATH_LEX query;    /* Whole query                               */
  MY_XPATH_LEX lasttok;  /* last scanned token                        */
  MY_XPATH_LEX prevtok;  /* previous scanned token                    */
  int axis;              /* last scanned axis                         */
  int extra;             /* last scanned "extra", context dependent   */
  MY_XPATH_FUNC *func;   /* last scanned function creator             */
  Item *item;            /* current expression                        */
  Item *context;         /* last scanned context                      */
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  Item *rootelement;     /* The root element                          */
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  String *context_cache; /* last context provider                     */
  String *pxml;          /* Parsed XML, an array of MY_XML_NODE       */
  CHARSET_INFO *cs;      /* character set/collation string comparison */
} MY_XPATH;


/* Dynamic array of MY_XPATH_FLT */
class XPathFilter :public String
{
public:
  XPathFilter() :String() {}
  inline bool append_element(MY_XPATH_FLT *flt)
  {
    String *str= this;
    return str->append((const char*)flt, (uint32) sizeof(MY_XPATH_FLT));
  }
  inline bool append_element(uint32 num, uint32 pos)
  {
    MY_XPATH_FLT add;
    add.num= num;
    add.pos= pos;
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    add.size= 0;
    return append_element(&add);
  }
  inline bool append_element(uint32 num, uint32 pos, uint32 size)
  {
    MY_XPATH_FLT add;
    add.num= num;
    add.pos= pos;
    add.size= size;
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    return append_element(&add);
  }
  inline MY_XPATH_FLT *element(uint i)
  { 
    return (MY_XPATH_FLT*) (ptr() + i * sizeof(MY_XPATH_FLT));
  }
  inline uint32 numelements()
  {
    return length() / sizeof(MY_XPATH_FLT);
  }
};


/*
  Common features of the functions returning a node set.
*/
class Item_nodeset_func :public Item_str_func
{
protected:
  String tmp_value, tmp2_value;
  MY_XPATH_FLT *fltbeg, *fltend;
  MY_XML_NODE *nodebeg, *nodeend;
  uint numnodes;
public:
  String *pxml;
  String context_cache;
  Item_nodeset_func(String *pxml_arg) :Item_str_func(), pxml(pxml_arg) {}
  Item_nodeset_func(Item *a, String *pxml_arg) 
    :Item_str_func(a), pxml(pxml_arg) {}
  Item_nodeset_func(Item *a, Item *b, String *pxml_arg) 
    :Item_str_func(a, b), pxml(pxml_arg) {}
  Item_nodeset_func(Item *a, Item *b, Item *c, String *pxml_arg) 
    :Item_str_func(a,b,c), pxml(pxml_arg) {}
  void prepare_nodes()
  {
    nodebeg= (MY_XML_NODE*) pxml->ptr();
    nodeend= (MY_XML_NODE*) (pxml->ptr() + pxml->length());
    numnodes= nodeend - nodebeg;
  }
  void prepare(String *nodeset)
  {
    prepare_nodes();
    String *res= args[0]->val_nodeset(&tmp_value);
    fltbeg= (MY_XPATH_FLT*) res->ptr();
    fltend= (MY_XPATH_FLT*) (res->ptr() + res->length());
    nodeset->length(0);
  }
  enum Type type() const { return XPATH_NODESET; }
  String *val_str(String *str)
  {
    prepare_nodes();
    String *res= val_nodeset(&tmp2_value);
    fltbeg= (MY_XPATH_FLT*) res->ptr();
    fltend= (MY_XPATH_FLT*) (res->ptr() + res->length());
    String active;
    active.alloc(numnodes);
    bzero((char*) active.ptr(), numnodes);
    for (MY_XPATH_FLT *flt= fltbeg; flt < fltend; flt++)
    {
      MY_XML_NODE *node;
      uint j;
      for (j=0, node= nodebeg ; j < numnodes; j++, node++)
      {
        if (node->type == MY_XML_NODE_TEXT &&
            node->parent == flt->num)
          active[j]= 1;
      }
    }

    str->length(0);
    str->set_charset(collation.collation);
    for (uint i=0 ; i < numnodes; i++)
    {
      if(active[i])
      {
        if (str->length())
          str->append(" ", 1, &my_charset_latin1);
        str->append(nodebeg[i].beg, nodebeg[i].end - nodebeg[i].beg);
      }
    }
    return str;
  }
  enum Item_result result_type () const { return STRING_RESULT; }
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  void fix_length_and_dec()
  {
    max_length= MAX_BLOB_WIDTH;
    collation.collation= pxml->charset();
  }
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  const char *func_name() const { return "nodeset"; }
};


/* Returns an XML root */
class Item_nodeset_func_rootelement :public Item_nodeset_func
{
public:
  Item_nodeset_func_rootelement(String *pxml): Item_nodeset_func(pxml) {}
  const char *func_name() const { return "xpath_rootelement"; }
  String *val_nodeset(String *nodeset);
};


/* Returns a Union of two node sets */
class Item_nodeset_func_union :public Item_nodeset_func
{
public:
  Item_nodeset_func_union(Item *a, Item *b, String *pxml)
    :Item_nodeset_func(a, b, pxml) {}
  const char *func_name() const { return "xpath_union"; }
  String *val_nodeset(String *nodeset);
};


/* Makes one step towards the given axis */
class Item_nodeset_func_axisbyname :public Item_nodeset_func
{
  const char *node_name;
  uint node_namelen;
public:
  Item_nodeset_func_axisbyname(Item *a, const char *n_arg, uint l_arg,
                               String *pxml): 
    Item_nodeset_func(a, pxml), node_name(n_arg), node_namelen(l_arg) { }
  const char *func_name() const { return "xpath_axisbyname"; }
  bool validname(MY_XML_NODE *n)
  {
    if (node_name[0] == '*')
      return 1;
    return (node_namelen == (uint) (n->end - n->beg)) &&
            !memcmp(node_name, n->beg, node_namelen);
  }
};


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/* Returns self */
class Item_nodeset_func_selfbyname: public Item_nodeset_func_axisbyname
{
public:
  Item_nodeset_func_selfbyname(Item *a, const char *n_arg, uint l_arg,
                                String *pxml): 
    Item_nodeset_func_axisbyname(a, n_arg, l_arg, pxml) {}
  const char *func_name() const { return "xpath_selfbyname"; }
  String *val_nodeset(String *nodeset);
};


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/* Returns children */
class Item_nodeset_func_childbyname: public Item_nodeset_func_axisbyname
{
public:
  Item_nodeset_func_childbyname(Item *a, const char *n_arg, uint l_arg,
                                String *pxml): 
    Item_nodeset_func_axisbyname(a, n_arg, l_arg, pxml) {}
  const char *func_name() const { return "xpath_childbyname"; }
  String *val_nodeset(String *nodeset);
};


/* Returns descendants */
class Item_nodeset_func_descendantbyname: public Item_nodeset_func_axisbyname
{
  bool need_self;
public:
  Item_nodeset_func_descendantbyname(Item *a, const char *n_arg, uint l_arg,
                                     String *pxml, bool need_self_arg): 
    Item_nodeset_func_axisbyname(a, n_arg, l_arg, pxml), 
      need_self(need_self_arg) {}
  const char *func_name() const { return "xpath_descendantbyname"; }
  String *val_nodeset(String *nodeset);
};


/* Returns ancestors */
class Item_nodeset_func_ancestorbyname: public Item_nodeset_func_axisbyname
{
  bool need_self;
public:
  Item_nodeset_func_ancestorbyname(Item *a, const char *n_arg, uint l_arg,
                                   String *pxml, bool need_self_arg): 
    Item_nodeset_func_axisbyname(a, n_arg, l_arg, pxml),
      need_self(need_self_arg) {}
  const char *func_name() const { return "xpath_ancestorbyname"; }
  String *val_nodeset(String *nodeset);
};


/* Returns parents */
class Item_nodeset_func_parentbyname: public Item_nodeset_func_axisbyname
{
public:
  Item_nodeset_func_parentbyname(Item *a, const char *n_arg, uint l_arg,
                                 String *pxml): 
    Item_nodeset_func_axisbyname(a, n_arg, l_arg, pxml) {}
  const char *func_name() const { return "xpath_parentbyname"; }
  String *val_nodeset(String *nodeset);
};


/* Returns attributes */
class Item_nodeset_func_attributebyname: public Item_nodeset_func_axisbyname
{
public:
  Item_nodeset_func_attributebyname(Item *a, const char *n_arg, uint l_arg,
                                    String *pxml): 
    Item_nodeset_func_axisbyname(a, n_arg, l_arg, pxml) {}
  const char *func_name() const { return "xpath_attributebyname"; }
  String *val_nodeset(String *nodeset);
};


/*
  Condition iterator: goes through all nodes in the current
  context and checks a condition, returning those nodes
  giving TRUE condition result.
*/
class Item_nodeset_func_predicate :public Item_nodeset_func
{
public:
  Item_nodeset_func_predicate(Item *a, Item *b, String *pxml):
    Item_nodeset_func(a, b, pxml) {}
  const char *func_name() const { return "xpath_predicate"; }
  String *val_nodeset(String *nodeset);
};


/* Selects nodes with a given position in context */
class Item_nodeset_func_elementbyindex :public Item_nodeset_func
{
public:
  Item_nodeset_func_elementbyindex(Item *a, Item *b, String *pxml): 
    Item_nodeset_func(a, b, pxml) { }
  const char *func_name() const { return "xpath_elementbyindex"; }
  String *val_nodeset(String *nodeset);
};


/*
  We need to distinguish a number from a boolean:
  a[1] and a[true] are different things in XPath.
*/
class Item_bool :public Item_int
{
public:
  Item_bool(int32 i): Item_int(i) {}
  const char *func_name() const { return "xpath_bool"; }
  bool is_bool_func() { return 1; }
};


/*
  Converts its argument into a boolean value.
  * a number is true if it is non-zero
  * a node-set is true if and only if it is non-empty
  * a string is true if and only if its length is non-zero
*/
class Item_xpath_cast_bool :public Item_int_func
{
  String *pxml;
  String tmp_value;
public:
  Item_xpath_cast_bool(Item *a, String *pxml_arg)
    :Item_int_func(a), pxml(pxml_arg) {}
  const char *func_name() const { return "xpath_cast_bool"; }
  bool is_bool_func() { return 1; }
  longlong val_int()
  {
    if (args[0]->type() == XPATH_NODESET)
    {
      String *flt= args[0]->val_nodeset(&tmp_value);
      return flt->length() == sizeof(MY_XPATH_FLT) ? 1 : 0;
    }
    return args[0]->val_real() ? 1 : 0;
  }
};


/*
  Converts its argument into a number
*/
class Item_xpath_cast_number :public Item_real_func
{
public:
  Item_xpath_cast_number(Item *a): Item_real_func(a) {}
  const char *func_name() const { return "xpath_cast_number"; }
  virtual double val_real() { return args[0]->val_real(); }
};


/*
  Context cache, for predicate
*/
class Item_nodeset_context_cache :public Item_nodeset_func
{
public:
  String *string_cache;
  Item_nodeset_context_cache(String *str_arg, String *pxml):
    Item_nodeset_func(pxml), string_cache(str_arg) { }
  String *val_nodeset(String *res)
  { return string_cache; }
  void fix_length_and_dec() { max_length= MAX_BLOB_WIDTH; }
};


class Item_func_xpath_position :public Item_int_func
{
  String *pxml;
  String tmp_value;
public:
  Item_func_xpath_position(Item *a, String *p)
    :Item_int_func(a), pxml(p) {}
  const char *func_name() const { return "xpath_position"; }
  void fix_length_and_dec() { max_length=10; }
  longlong val_int()
  {
    String *flt= args[0]->val_nodeset(&tmp_value);
    if (flt->length() == sizeof(MY_XPATH_FLT))
      return ((MY_XPATH_FLT*)flt->ptr())->pos + 1;
    return 0;
  }
};


class Item_func_xpath_count :public Item_int_func
{
  String *pxml;
  String tmp_value;
public:
  Item_func_xpath_count(Item *a, String *p)
    :Item_int_func(a), pxml(p) {}
  const char *func_name() const { return "xpath_count"; }
  void fix_length_and_dec() { max_length=10; }
  longlong val_int()
  {
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    uint predicate_supplied_context_size;
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    String *res= args[0]->val_nodeset(&tmp_value);
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    if (res->length() == sizeof(MY_XPATH_FLT) &&
        (predicate_supplied_context_size= ((MY_XPATH_FLT*)res->ptr())->size))
      return predicate_supplied_context_size;
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    return res->length() / sizeof(MY_XPATH_FLT);
  }
};


class Item_func_xpath_sum :public Item_real_func
{
  String *pxml;
  String tmp_value;
public:
  Item_func_xpath_sum(Item *a, String *p)
    :Item_real_func(a), pxml(p) {}

  const char *func_name() const { return "xpath_sum"; }
  double val_real()
  {
    double sum= 0;
    String *res= args[0]->val_nodeset(&tmp_value);
    MY_XPATH_FLT *fltbeg= (MY_XPATH_FLT*) res->ptr();
    MY_XPATH_FLT *fltend= (MY_XPATH_FLT*) (res->ptr() + res->length());
    uint numnodes= pxml->length() / sizeof(MY_XML_NODE);
    MY_XML_NODE *nodebeg= (MY_XML_NODE*) pxml->ptr();
  
    for (MY_XPATH_FLT *flt= fltbeg; flt < fltend; flt++)
    {
      MY_XML_NODE *self= &nodebeg[flt->num];
      for (uint j= flt->num + 1; j < numnodes; j++)
      {
        MY_XML_NODE *node= &nodebeg[j];
        if (node->level <= self->level)
          break;
        if ((node->parent == flt->num) &&
            (node->type == MY_XML_NODE_TEXT))
        {
          char *end;
          int err;
          double add= my_strntod(collation.collation, (char*) node->beg,
                                 node->end - node->beg, &end, &err);
          if (!err)
            sum+= add;
        }
      }
    }
    return sum;
  }
};


class Item_nodeset_to_const_comparator :public Item_bool_func
{
  String *pxml;
  String tmp_nodeset;
public:
  Item_nodeset_to_const_comparator(Item *nodeset, Item *cmpfunc, String *p) 
    :Item_bool_func(nodeset,cmpfunc), pxml(p) {}
  enum Type type() const { return XPATH_NODESET_CMP; };
  const char *func_name() const { return "xpath_nodeset_to_const_comparator"; }
  bool is_bool_func() { return 1; }

  longlong val_int()
  {
    Item_func *comp= (Item_func*)args[1];
    Item_string *fake= (Item_string*)(comp->arguments()[1]);
    String *res= args[0]->val_nodeset(&tmp_nodeset);
    MY_XPATH_FLT *fltbeg= (MY_XPATH_FLT*) res->ptr();
    MY_XPATH_FLT *fltend= (MY_XPATH_FLT*) (res->ptr() + res->length());
    MY_XML_NODE *nodebeg= (MY_XML_NODE*) pxml->ptr();
    uint numnodes= pxml->length() / sizeof(MY_XML_NODE);

    for (MY_XPATH_FLT *flt= fltbeg; flt < fltend; flt++)
    {
      MY_XML_NODE *self= &nodebeg[flt->num];
      for (uint j= flt->num + 1; j < numnodes; j++)
      {
        MY_XML_NODE *node= &nodebeg[j];
        if (node->level <= self->level)
          break;
        if ((node->parent == flt->num) &&
            (node->type == MY_XML_NODE_TEXT))
        {
          fake->str_value.set(node->beg, node->end - node->beg,
                              collation.collation);
          if (args[1]->val_int())
            return 1;
        }
      }
    }
    return 0;
  }
};


String *Item_nodeset_func_rootelement::val_nodeset(String *nodeset)
{
  nodeset->length(0);
  ((XPathFilter*)nodeset)->append_element(0, 0);
  return nodeset;
}


String * Item_nodeset_func_union::val_nodeset(String *nodeset)
{
  uint numnodes= pxml->length() / sizeof(MY_XML_NODE);
  String set0, *s0= args[0]->val_nodeset(&set0);
  String set1, *s1= args[1]->val_nodeset(&set1);
  String both_str;
  both_str.alloc(numnodes);
  char *both= (char*) both_str.ptr();
  bzero((void*)both, numnodes);
  uint pos= 0;
  MY_XPATH_FLT *flt;

  fltbeg= (MY_XPATH_FLT*) s0->ptr();
  fltend= (MY_XPATH_FLT*) (s0->ptr() + s0->length());
  for (flt= fltbeg; flt < fltend; flt++)
    both[flt->num]= 1;

  fltbeg= (MY_XPATH_FLT*) s1->ptr();
  fltend= (MY_XPATH_FLT*) (s1->ptr() + s1->length());
  for (flt= fltbeg; flt < fltend; flt++)
    both[flt->num]= 1;

  nodeset->length(0);
  for (uint i= 0, pos= 0; i < numnodes; i++)
  {
    if (both[i])
     ((XPathFilter*)nodeset)->append_element(i, pos++);
  }
  return nodeset;
}


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String *Item_nodeset_func_selfbyname::val_nodeset(String *nodeset)
{
  prepare(nodeset);
  for (MY_XPATH_FLT *flt= fltbeg; flt < fltend; flt++)
  {
    uint pos= 0;
    MY_XML_NODE *self= &nodebeg[flt->num];
    if (validname(self))
      ((XPathFilter*)nodeset)->append_element(flt->num,pos++);
  }
  return nodeset;
}


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String *Item_nodeset_func_childbyname::val_nodeset(String *nodeset)
{
  prepare(nodeset);
  for (MY_XPATH_FLT *flt= fltbeg; flt < fltend; flt++)
  {
    MY_XML_NODE *self= &nodebeg[flt->num];
    for (uint pos= 0, j= flt->num + 1 ; j < numnodes; j++)
    {
      MY_XML_NODE *node= &nodebeg[j];
      if (node->level <= self->level)
        break;
      if ((node->parent == flt->num) &&
          (node->type == MY_XML_NODE_TAG) &&
          validname(node))
        ((XPathFilter*)nodeset)->append_element(j, pos++);
    }
  }
  return nodeset;
}


String *Item_nodeset_func_descendantbyname::val_nodeset(String *nodeset)
{
  prepare(nodeset);
  for (MY_XPATH_FLT *flt= fltbeg; flt < fltend; flt++)
  {
    uint pos= 0;
    MY_XML_NODE *self= &nodebeg[flt->num];
    if (need_self && validname(self))
      ((XPathFilter*)nodeset)->append_element(flt->num,pos++);
    for (uint j= flt->num + 1 ; j < numnodes ; j++)
    {
      MY_XML_NODE *node= &nodebeg[j];
      if (node->level <= self->level)
        break;
      if ((node->type == MY_XML_NODE_TAG) && validname(node))
        ((XPathFilter*)nodeset)->append_element(j,pos++);
    }
  }
  return nodeset;
}


String *Item_nodeset_func_ancestorbyname::val_nodeset(String *nodeset)
{
  char *active;
  String active_str;
  prepare(nodeset);
  active_str.alloc(numnodes);
  active= (char*) active_str.ptr();
  bzero((void*)active, numnodes);
  uint pos= 0;

  for (MY_XPATH_FLT *flt= fltbeg; flt < fltend; flt++)
  {
    /*
       Go to the root and add all nodes on the way.
       Don't add the root if context is the root itelf
    */
    MY_XML_NODE *self= &nodebeg[flt->num];
    if (need_self && validname(self))
    {
      active[flt->num]= 1;
      pos++;
    }

    for (uint j= self->parent; nodebeg[j].parent != j; j= nodebeg[j].parent)
    {
      if (flt->num && validname(&nodebeg[j]))
      {
        active[j]= 1;
        pos++;
      }
    }
  }

  for (uint j= 0; j < numnodes ; j++)
  {
    if (active[j])
      ((XPathFilter*)nodeset)->append_element(j, --pos);
  }
  return nodeset;
}


String *Item_nodeset_func_parentbyname::val_nodeset(String *nodeset)
{
  char *active;
  String active_str;
  prepare(nodeset);
  active_str.alloc(numnodes);
  active= (char*) active_str.ptr();
  bzero((void*)active, numnodes);
  for (MY_XPATH_FLT *flt= fltbeg; flt < fltend; flt++)
  {
    uint j= nodebeg[flt->num].parent;
    if (flt->num && validname(&nodebeg[j]))
        active[j]= 1;
  }
  for (uint j= 0, pos= 0; j < numnodes ; j++)
  {
    if (active[j])
      ((XPathFilter*)nodeset)->append_element(j, pos++);
  }
  return nodeset;
}


String *Item_nodeset_func_attributebyname::val_nodeset(String *nodeset)
{
  prepare(nodeset);
  for (MY_XPATH_FLT *flt= fltbeg; flt < fltend; flt++)
  {
    MY_XML_NODE *self= &nodebeg[flt->num];
    for (uint pos=0, j= flt->num + 1 ; j < numnodes; j++)
    {
      MY_XML_NODE *node= &nodebeg[j];
      if (node->level <= self->level)
        break;
      if ((node->parent == flt->num) &&
         (node->type == MY_XML_NODE_ATTR) &&
          validname(node))
        ((XPathFilter*)nodeset)->append_element(j, pos++);
    }
  }
  return nodeset;
}


String *Item_nodeset_func_predicate::val_nodeset(String *str)
{
  Item_nodeset_func *nodeset_func= (Item_nodeset_func*) args[0];
  Item_func *comp_func= (Item_func*)args[1];
751
  uint pos= 0, size;
752
  prepare(str);
753
  size= fltend - fltbeg;
754 755 756 757
  for (MY_XPATH_FLT *flt= fltbeg; flt < fltend; flt++)
  {
    nodeset_func->context_cache.length(0);
    ((XPathFilter*)(&nodeset_func->context_cache))->append_element(flt->num,
758 759
                                                                   flt->pos,
                                                                   size);
760 761 762 763
    if (comp_func->val_int())
      ((XPathFilter*)str)->append_element(flt->num, pos++);
  }
  return str;
764
}
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String *Item_nodeset_func_elementbyindex::val_nodeset(String *nodeset)
{
769
  Item_nodeset_func *nodeset_func= (Item_nodeset_func*) args[0];
770
  prepare(nodeset);
771 772 773
  MY_XPATH_FLT *flt;
  uint pos, size= fltend - fltbeg;
  for (pos= 0, flt= fltbeg; flt < fltend; flt++)
774
  {
775 776 777 778 779 780 781
    nodeset_func->context_cache.length(0);
    ((XPathFilter*)(&nodeset_func->context_cache))->append_element(flt->num,
                                                                   flt->pos,
                                                                   size);
    int index= args[1]->val_int() - 1;
    if (index >= 0 && (flt->pos == (uint) index || args[1]->is_bool_func()))
      ((XPathFilter*)nodeset)->append_element(flt->num, pos++);
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  }
  return nodeset;
}


/*
  If item is a node set, then casts it to boolean,
  otherwise returns the item itself.
*/
static Item* nodeset2bool(MY_XPATH *xpath, Item *item)
{
  if (item->type() == Item::XPATH_NODESET)
    return new Item_xpath_cast_bool(item, xpath->pxml);
  return item;
}


/*
  XPath lexical tokens
*/
#define MY_XPATH_LEX_DIGITS   'd'
#define MY_XPATH_LEX_IDENT    'i'
#define MY_XPATH_LEX_STRING   's'
#define MY_XPATH_LEX_SLASH    '/'
#define MY_XPATH_LEX_LB       '['
#define MY_XPATH_LEX_RB       ']'
#define MY_XPATH_LEX_LP       '('
#define MY_XPATH_LEX_RP       ')'
#define MY_XPATH_LEX_EQ       '='
#define MY_XPATH_LEX_LESS     '<'
#define MY_XPATH_LEX_GREATER  '>'
#define MY_XPATH_LEX_AT       '@'
#define MY_XPATH_LEX_COLON    ':'
#define MY_XPATH_LEX_ASTERISK '*'
#define MY_XPATH_LEX_DOT      '.'
#define MY_XPATH_LEX_VLINE    '|'
#define MY_XPATH_LEX_MINUS    '-'
#define MY_XPATH_LEX_PLUS     '+'
#define MY_XPATH_LEX_EXCL     '!'
#define MY_XPATH_LEX_COMMA    ','
#define MY_XPATH_LEX_DOLLAR   '$'
#define MY_XPATH_LEX_ERROR    'A'
#define MY_XPATH_LEX_EOF      'B'
#define MY_XPATH_LEX_AND      'C'
#define MY_XPATH_LEX_OR       'D'
#define MY_XPATH_LEX_DIV      'E'
#define MY_XPATH_LEX_MOD      'F'
#define MY_XPATH_LEX_FUNC     'G'
#define MY_XPATH_LEX_NODETYPE 'H'
#define MY_XPATH_LEX_AXIS     'I'
#define MY_XPATH_LEX_LE       'J'
#define MY_XPATH_LEX_GE       'K'


/*
  XPath axis type
*/
#define MY_XPATH_AXIS_ANCESTOR            0
#define MY_XPATH_AXIS_ANCESTOR_OR_SELF    1
#define MY_XPATH_AXIS_ATTRIBUTE           2
#define MY_XPATH_AXIS_CHILD               3
#define MY_XPATH_AXIS_DESCENDANT          4
#define MY_XPATH_AXIS_DESCENDANT_OR_SELF  5
#define MY_XPATH_AXIS_FOLLOWING           6
#define MY_XPATH_AXIS_FOLLOWING_SIBLING   7
#define MY_XPATH_AXIS_NAMESPACE           8
#define MY_XPATH_AXIS_PARENT              9
#define MY_XPATH_AXIS_PRECEDING          10
#define MY_XPATH_AXIS_PRECEDING_SIBLING  11
#define MY_XPATH_AXIS_SELF               12


/*
  Create scalar comparator

  SYNOPSYS
    Create a comparator function for scalar arguments,
    for the given arguments and operation.

  RETURN
    The newly created item.
*/
static Item *eq_func(int oper, Item *a, Item *b)
{
  switch (oper)
  {
    case '=': return new Item_func_eq(a, b);
    case '!': return new Item_func_ne(a, b);
    case MY_XPATH_LEX_GE: return new Item_func_ge(a, b);
    case MY_XPATH_LEX_LE: return new Item_func_le(a, b);
    case MY_XPATH_LEX_GREATER: return new Item_func_gt(a, b);
    case MY_XPATH_LEX_LESS: return new Item_func_lt(a, b);
  }
  return 0;
}


/*
  Create scalar comparator

  SYNOPSYS
    Create a comparator function for scalar arguments,
    for the given arguments and reverse operation, e.g.

    A >= B  is converted into  A < B

  RETURN
    The newly created item.
*/
static Item *eq_func_reverse(int oper, Item *a, Item *b)
{
  switch (oper)
  {
    case '=': return new Item_func_eq(a, b);
    case '!': return new Item_func_ne(a, b);
    case MY_XPATH_LEX_GE: return new Item_func_lt(a, b);
    case MY_XPATH_LEX_LE: return new Item_func_gt(a, b);
    case MY_XPATH_LEX_GREATER: return new Item_func_le(a, b);
    case MY_XPATH_LEX_LESS: return new Item_func_ge(a, b);
  }
  return 0;
}


/*
  Create a comparator

  SYNOPSYS
    Create a comparator for scalar or non-scalar arguments,
    for the given arguments and operation.

  RETURN
    The newly created item.
*/
static Item *create_comparator(MY_XPATH *xpath, int oper, Item *a, Item *b)
{
  if (a->type() != Item::XPATH_NODESET &&
      b->type() != Item::XPATH_NODESET)
  {
    return eq_func(oper, a, b); // two scalar arguments
  }
  else if (a->type() == Item::XPATH_NODESET &&
           b->type() == Item::XPATH_NODESET)
  {
    return 0; // TODO: Comparison of two nodesets
  }
  else
  {
    /*
     Compare a node set to a scalar value.
     We just create a fake Item_string() argument,
     which will be filled to the partular value
     in a loop through all of the nodes in the node set.
    */

    Item *fake= new Item_string("", 0, xpath->cs);
    Item_nodeset_func *nodeset;
    Item *scalar, *comp;
    if (a->type() == Item::XPATH_NODESET)
    {
      nodeset= (Item_nodeset_func*) a;
      scalar= b;
      comp= eq_func(oper, scalar, fake);
    }
    else
    {
      nodeset= (Item_nodeset_func*) b;
      scalar= a;
      comp= eq_func_reverse(oper, scalar, fake);
    }
    return new Item_nodeset_to_const_comparator(nodeset, comp, xpath->pxml);
  }
}


/*
  Create a step

  SYNOPSYS
    Create a step function for the given argument and axis.

  RETURN
    The newly created item.
*/
static Item* nametestfunc(MY_XPATH *xpath,
                          int type, Item *arg, const char *beg, uint len)
{
  DBUG_ASSERT(arg != 0);
  DBUG_ASSERT(arg->type() == Item::XPATH_NODESET);
  DBUG_ASSERT(beg != 0);
  DBUG_ASSERT(len > 0);

  Item *res;
  switch (type)
  {
  case MY_XPATH_AXIS_ANCESTOR:
    res= new Item_nodeset_func_ancestorbyname(arg, beg, len, xpath->pxml, 0);
    break;
  case MY_XPATH_AXIS_ANCESTOR_OR_SELF:
    res= new Item_nodeset_func_ancestorbyname(arg, beg, len, xpath->pxml, 1);
    break;
  case MY_XPATH_AXIS_PARENT:
    res= new Item_nodeset_func_parentbyname(arg, beg, len, xpath->pxml);
    break;
  case MY_XPATH_AXIS_DESCENDANT:
    res= new Item_nodeset_func_descendantbyname(arg, beg, len, xpath->pxml, 0);
    break;
  case MY_XPATH_AXIS_DESCENDANT_OR_SELF:
    res= new Item_nodeset_func_descendantbyname(arg, beg, len, xpath->pxml, 1);
    break;
  case MY_XPATH_AXIS_ATTRIBUTE:
    res= new Item_nodeset_func_attributebyname(arg, beg, len, xpath->pxml);
    break;
995 996 997
  case MY_XPATH_AXIS_SELF:
    res= new Item_nodeset_func_selfbyname(arg, beg, len, xpath->pxml);
    break;
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  default:
    res= new Item_nodeset_func_childbyname(arg, beg, len, xpath->pxml);
  }
  return res;
}


/*
  Tokens consisting of one character, for faster lexical analizer.
*/
static char simpletok[128]=
{
  0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,
/*
    ! " # $ % & ' ( ) * + , - . / 0 1 2 3 4 5 6 7 8 9 : ; < = > ?
  @ A B C D E F G H I J K L M N O P Q R S T U V W X Y Z [ \ ] ^ _
  ` a b c d e f g h i j k l m n o p q r s t u v w x y z { | } ~ 
*/
  0,1,0,0,1,0,0,0,1,1,1,1,1,1,1,1,0,0,0,0,0,0,0,0,0,0,1,0,1,1,1,0,
  1,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,1,0,1,0,0,
  0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,1,0,0,0  
};


/*
  XPath keywords
*/
struct my_xpath_keyword_names_st
{
  int tok;
  const char *name;
  size_t length;
  int extra;
};


static struct my_xpath_keyword_names_st my_keyword_names[] =
{
  {MY_XPATH_LEX_AND     , "and"                    ,  3, 0 },
  {MY_XPATH_LEX_OR      , "or"                     ,  2, 0 },
  {MY_XPATH_LEX_DIV     , "div"                    ,  3, 0 },
  {MY_XPATH_LEX_MOD     , "mod"                    ,  3, 0 },
  
  {MY_XPATH_LEX_NODETYPE, "comment"                ,  7, 0 },
  {MY_XPATH_LEX_NODETYPE, "text"                   ,  4, 0 },
  {MY_XPATH_LEX_NODETYPE, "processing-instruction" ,  22,0 },
  {MY_XPATH_LEX_NODETYPE, "node"                   ,  4, 0 },
  
  {MY_XPATH_LEX_AXIS,"ancestor"          , 8,MY_XPATH_AXIS_ANCESTOR          },
  {MY_XPATH_LEX_AXIS,"ancestor-or-self"  ,16,MY_XPATH_AXIS_ANCESTOR_OR_SELF  },
  {MY_XPATH_LEX_AXIS,"attribute"         , 9,MY_XPATH_AXIS_ATTRIBUTE         },
  {MY_XPATH_LEX_AXIS,"child"             , 5,MY_XPATH_AXIS_CHILD             },
  {MY_XPATH_LEX_AXIS,"descendant"        ,10,MY_XPATH_AXIS_DESCENDANT        },
  {MY_XPATH_LEX_AXIS,"descendant-or-self",18,MY_XPATH_AXIS_DESCENDANT_OR_SELF},
  {MY_XPATH_LEX_AXIS,"following"         , 9,MY_XPATH_AXIS_FOLLOWING         },
  {MY_XPATH_LEX_AXIS,"following-sibling" ,17,MY_XPATH_AXIS_FOLLOWING_SIBLING },
  {MY_XPATH_LEX_AXIS,"namespace"         , 9,MY_XPATH_AXIS_NAMESPACE         },
  {MY_XPATH_LEX_AXIS,"parent"            , 6,MY_XPATH_AXIS_PARENT            },
  {MY_XPATH_LEX_AXIS,"preceding"         , 9,MY_XPATH_AXIS_PRECEDING         },
  {MY_XPATH_LEX_AXIS,"preceding-sibling" ,17,MY_XPATH_AXIS_PRECEDING_SIBLING },
  {MY_XPATH_LEX_AXIS,"self"              , 4,MY_XPATH_AXIS_SELF              },

  {0,NULL,0,0}
};


/*
  Lookup a keyword

  SYNOPSYS
    Check that the last scanned identifier is a keyword.

  RETURN
    - Token type, on lookup success.
    - MY_XPATH_LEX_IDENT, on lookup failure.
*/
static int my_xpath_keyword(MY_XPATH *x, const char *beg, const char *end)
{
  struct my_xpath_keyword_names_st *k;
  size_t length= end-beg;
  for (k= my_keyword_names; k->name; k++)
  {
    if (length == k->length && !strncasecmp(beg, k->name, length))
    {
      x->extra= k->extra;
      return k->tok;
    }
  }
  return MY_XPATH_LEX_IDENT;
}


/*
  Functions to create an item, a-la those in item_create.cc
*/

static Item *create_func_true(MY_XPATH *xpath, Item **args, uint nargs)
{ 
  return new Item_bool(1);
}


static Item *create_func_false(MY_XPATH *xpath, Item **args, uint nargs)
{ 
  return new Item_bool(0);
}


static Item *create_func_not(MY_XPATH *xpath, Item **args, uint nargs)
{ 
  return new Item_func_not(nodeset2bool(xpath, args[0]));
}


static Item *create_func_ceiling(MY_XPATH *xpath, Item **args, uint nargs)
{
  return new Item_func_ceiling(args[0]);
}


static Item *create_func_floor(MY_XPATH *xpath, Item **args, uint nargs)
{
  return new Item_func_floor(args[0]);
}


static Item *create_func_bool(MY_XPATH *xpath, Item **args, uint nargs)
{
  return new Item_xpath_cast_bool(args[0], xpath->pxml);
}


static Item *create_func_number(MY_XPATH *xpath, Item **args, uint nargs)
{
  return new Item_xpath_cast_number(args[0]);
}


static Item *create_func_round(MY_XPATH *xpath, Item **args, uint nargs)
{
  return new Item_func_round(args[0], new Item_int((char*)"0",0,1),0);
}


static Item *create_func_last(MY_XPATH *xpath, Item **args, uint nargs)
{
  return new Item_func_xpath_count(xpath->context, xpath->pxml);
}


static Item *create_func_position(MY_XPATH *xpath, Item **args, uint nargs)
{
  return new Item_func_xpath_position(xpath->context, xpath->pxml);
}


static Item *create_func_contains(MY_XPATH *xpath, Item **args, uint nargs)
{
  return new Item_xpath_cast_bool(new Item_func_locate(args[0], args[1]),
                                  xpath->pxml);
}


static Item *create_func_concat(MY_XPATH *xpath, Item **args, uint nargs)
{ 
  return new Item_func_concat(args[0], args[1]); 
}


static Item *create_func_substr(MY_XPATH *xpath, Item **args, uint nargs)
{
  if (nargs == 2)
    return new Item_func_substr(args[0], args[1]);
  else
    return new Item_func_substr(args[0], args[1], args[2]);
}


static Item *create_func_count(MY_XPATH *xpath, Item **args, uint nargs)
{  
  if (args[0]->type() != Item::XPATH_NODESET)
    return 0;
  return new Item_func_xpath_count(args[0], xpath->pxml);
}


static Item *create_func_sum(MY_XPATH *xpath, Item **args, uint nargs)
{
  if (args[0]->type() != Item::XPATH_NODESET)
    return 0;
  return new Item_func_xpath_sum(args[0], xpath->pxml);
}


/*
  Functions names. Separate lists for names with
  lengths 3,4,5 and 6 for faster lookups.
*/
static MY_XPATH_FUNC my_func_names3[]=
{
  {"sum", 3, 1 , 1  , create_func_sum},
  {"not", 3, 1 , 1  , create_func_not},
  {0    , 0, 0 , 0, 0}
};


static MY_XPATH_FUNC my_func_names4[]=
{
  {"last", 4, 0, 0, create_func_last},
  {"true", 4, 0, 0, create_func_true},
  {"name", 4, 0, 1, 0},
  {"lang", 4, 1, 1, 0},
  {0     , 0, 0, 0, 0}
};


static MY_XPATH_FUNC my_func_names5[]=
{
  {"count", 5, 1, 1, create_func_count},
  {"false", 5, 0, 0, create_func_false},
  {"floor", 5, 1, 1, create_func_floor},
  {"round", 5, 1, 1, create_func_round},
  {0      , 0, 0, 0, 0}
};


static MY_XPATH_FUNC my_func_names6[]=
{
  {"concat", 6, 2, 255, create_func_concat},
  {"number", 6, 0, 1  , create_func_number},
  {"string", 6, 0, 1  , 0},
  {0       , 0, 0, 0  , 0}
};


/* Other functions, with name longer than 6, all together */
static MY_XPATH_FUNC my_func_names[] =
{
  {"id"               , 2  ,  1 , 1  , 0},
  {"boolean"          , 7  ,  1 , 1  , create_func_bool},
  {"ceiling"          , 7  ,  1 , 1  , create_func_ceiling},
  {"position"         , 8  ,  0 , 0  , create_func_position},
  {"contains"         , 8  ,  2 , 2  , create_func_contains},
  {"substring"        , 9  ,  2 , 3  , create_func_substr},
  {"translate"        , 9  ,  3 , 3  , 0},

  {"local-name"       , 10 ,  0 , 1  , 0},
  {"starts-with"      , 11 ,  2 , 2  , 0},
  {"namespace-uri"    , 13 ,  0 , 1  , 0},
  {"substring-after"  , 15 ,  2 , 2  , 0},
  {"normalize-space"  , 15 ,  0 , 1  , 0},
  {"substring-before" , 16 ,  2 , 2  , 0},

  {NULL,0,0,0,0}
};


/*
  Lookup a function by name

  SYNOPSYS
    Lookup a function by its name.

  RETURN
    Pointer to a MY_XPATH_FUNC variable on success.
    0 - on failure.

*/
MY_XPATH_FUNC *
my_xpath_function(const char *beg, const char *end)
{
  MY_XPATH_FUNC *k, *function_names;
  uint length= end-beg;
  switch (length)
  {
    case 1: return 0;
    case 3: function_names= my_func_names3; break;
    case 4: function_names= my_func_names4; break;
    case 5: function_names= my_func_names5; break;
    case 6: function_names= my_func_names6; break;
    default: function_names= my_func_names;
  }
  for (k= function_names; k->name; k++)
    if (k->create && length == k->length && !strncasecmp(beg, k->name, length))
      return k;
  return NULL;
}


/* Initialize a lex analizer token */
static void
my_xpath_lex_init(MY_XPATH_LEX *lex,
                  const char *str, const char *strend)
{
  lex->beg= str;
  lex->end= strend;
}


/* Initialize an XPath query parser */
static void
my_xpath_init(MY_XPATH *xpath)
{
  bzero((void*)xpath, sizeof(xpath[0]));
}


/*
  Some ctype-alike helper functions. Note, we cannot
  reuse cs->ident_map[], because in Xpath, unlike in SQL, 
  dash character is a valid identifier part.
*/
static int
my_xident_beg(int c)
{
  return (((c) >= 'a' && (c) <= 'z') ||
          ((c) >= 'A' && (c) <= 'Z') ||
          ((c) == '_'));
}


static int
my_xident_body(int c)
{
  return (((c) >= 'a' && (c) <= 'z') ||
          ((c) >= 'A' && (c) <= 'Z') ||
          ((c) >= '0' && (c) <= '9') ||
1325
          ((c)=='-') || ((c) == '_'));
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}


static int
my_xdigit(int c)
{
  return ((c) >= '0' && (c) <= '9');
}


/*
  Scan the next token

  SYNOPSYS
    Scan the next token from the input.
    lex->term is set to the scanned token type.
    lex->beg and lex->end are set to the beginnig
    and to the end of the token.
  RETURN
    N/A
*/
static void
my_xpath_lex_scan(MY_XPATH *xpath,
                  MY_XPATH_LEX *lex, const char *beg, const char *end)
{
  int ch;
  for ( ; beg < end && *beg == ' ' ; beg++); // skip leading spaces
  lex->beg= beg;
  
  if (beg >= end)
  {
    lex->end= beg;
    lex->term= MY_XPATH_LEX_EOF; // end of line reached
    return;
  }
  ch= *beg++;
  
  if (ch > 0 && ch < 128 && simpletok[ch])
  {
    // a token consisting of one character found
    lex->end= beg;
    lex->term= ch;
    return;
  }
  
  if (my_xident_beg(ch)) // ident, or a function call, or a keyword
  {
    // scan until the end of the identifier
    for ( ; beg < end && my_xident_body(*beg); beg++);
    lex->end= beg;

    // check if a function call
    if (*beg == '(' && (xpath->func= my_xpath_function(lex->beg, beg)))
    {
      lex->term= MY_XPATH_LEX_FUNC;
      return;
    }

    // check if a keyword
    lex->term= my_xpath_keyword(xpath, lex->beg, beg);
    return;
  }

  if (my_xdigit(ch)) // a sequence of digits
  {
    for ( ; beg < end && my_xdigit(*beg) ; beg++);
    lex->end= beg;
    lex->term= MY_XPATH_LEX_DIGITS;
    return;
  }

  if (ch == '"' || ch == '\'')  // a string: either '...' or "..."
  {
    for ( ; beg < end && *beg != ch ; beg++);
    if (beg < end)
    {
      lex->end= beg+1;
      lex->term= MY_XPATH_LEX_STRING;
      return;
    } 
    else
    {
      // unexpected end-of-line, without closing quot sign
      lex->end= end;
      lex->term= MY_XPATH_LEX_ERROR;
      return;
    }
  }

  lex->end= beg;
  lex->term= MY_XPATH_LEX_ERROR; // unknown character
  return;
}


/*
  Scan the given token

  SYNOPSYS
    Scan the given token and rotate lasttok to prevtok on success.

  RETURN
    1 - success
    0 - failure
*/
static int
my_xpath_parse_term(MY_XPATH *xpath, int term)
{
  if (xpath->lasttok.term == term)
  {
    xpath->prevtok= xpath->lasttok;
    my_xpath_lex_scan(xpath, &xpath->lasttok,
                      xpath->lasttok.end, xpath->query.end);
    return 1;
  }
  return 0;
}


/*
  Scan AxisName

  SYNOPSYS
    Scan an axis name and store the scanned axis type into xpath->axis.

  RETURN
    1 - success
    0 - failure
*/
static int my_xpath_parse_AxisName(MY_XPATH *xpath)
{
  int rc= my_xpath_parse_term(xpath, MY_XPATH_LEX_AXIS);
  xpath->axis= xpath->extra;
  return rc;
}


/*********************************************
** Grammar rules, according to http://www.w3.org/TR/xpath
** Implemented using recursive descendant method.
** All the following grammar processing functions accept
** a signle "xpath" argument and return 1 on success and 0 on error.
** They also modify "xpath" argument by creating new items.
*/

/* [9]  PredicateExpr ::= Expr */
#define my_xpath_parse_PredicateExpr(x) my_xpath_parse_Expr((x))

/* [14] Expr ::= OrExpr */
#define my_xpath_parse_Expr(x) my_xpath_parse_OrExpr((x))

static int my_xpath_parse_LocationPath(MY_XPATH *xpath);
static int my_xpath_parse_AbsoluteLocationPath(MY_XPATH *xpath);
static int my_xpath_parse_RelativeLocationPath(MY_XPATH *xpath);
static int my_xpath_parse_AbbreviatedAbsoluteLocationPath(MY_XPATH *xpath);
static int my_xpath_parse_AbbreviatedStep(MY_XPATH *xpath);
static int my_xpath_parse_Step(MY_XPATH *xpath);
static int my_xpath_parse_AxisSpecifier(MY_XPATH *xpath);
static int my_xpath_parse_NodeTest(MY_XPATH *xpath);
static int my_xpath_parse_AbbreviatedAxisSpecifier(MY_XPATH *xpath);
static int my_xpath_parse_NameTest(MY_XPATH *xpath);
static int my_xpath_parse_FunctionCall(MY_XPATH *xpath);
static int my_xpath_parse_Number(MY_XPATH *xpath);
static int my_xpath_parse_FilterExpr(MY_XPATH *xpath);
static int my_xpath_parse_PathExpr(MY_XPATH *xpath);
static int my_xpath_parse_OrExpr(MY_XPATH *xpath);
static int my_xpath_parse_UnaryExpr(MY_XPATH *xpath);
static int my_xpath_parse_MultiplicativeExpr(MY_XPATH *xpath);
static int my_xpath_parse_AdditiveExpr(MY_XPATH *xpath);
static int my_xpath_parse_RelationalExpr(MY_XPATH *xpath);
static int my_xpath_parse_AndExpr(MY_XPATH *xpath);
static int my_xpath_parse_EqualityExpr(MY_XPATH *xpath);
static int my_xpath_parse_VariableReference(MY_XPATH *xpath);
static int my_xpath_parse_slash_opt_slash(MY_XPATH *xpath);


/*
  Scan LocationPath

  SYNOPSYS

    [1] LocationPath ::=   RelativeLocationPath
                         | AbsoluteLocationPath

  RETURN
    1 - success
    0 - failure
*/
static int my_xpath_parse_LocationPath(MY_XPATH *xpath)
{
  Item *context= xpath->context;

1518 1519
  if (!xpath->context)
    xpath->context= xpath->rootelement;
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  int rc= my_xpath_parse_RelativeLocationPath(xpath) || 
          my_xpath_parse_AbsoluteLocationPath(xpath);

  xpath->item= xpath->context;
  xpath->context= context;
  return rc;
}


/*
  Scan Absolute Location Path

  SYNOPSYS

    [2]     AbsoluteLocationPath ::=   '/' RelativeLocationPath?	
                                     | AbbreviatedAbsoluteLocationPath
    [10]    AbbreviatedAbsoluteLocationPath ::=  '//' RelativeLocationPath

    We combine these two rules into one rule for better performance:

    [2,10]  AbsoluteLocationPath ::=  '/'   RelativeLocationPath?
                                     | '//' RelativeLocationPath

  RETURN
    1 - success
    0 - failure
*/
static int my_xpath_parse_AbsoluteLocationPath(MY_XPATH *xpath)
{
  if (!my_xpath_parse_term(xpath, MY_XPATH_LEX_SLASH))
    return 0;

1552
  xpath->context= xpath->rootelement;
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  if (my_xpath_parse_term(xpath, MY_XPATH_LEX_SLASH))
  {
    xpath->context= new Item_nodeset_func_descendantbyname(xpath->context,
                                                           "*", 1,
                                                           xpath->pxml, 1);
    return my_xpath_parse_RelativeLocationPath(xpath);
  }

  if (my_xpath_parse_RelativeLocationPath(xpath))
    return 1;

  return 1;
}


/*
  Scan Relative Location Path

  SYNOPSYS

    For better performance we combine these two rules 

    [3] RelativeLocationPath ::=   Step
                                 | RelativeLocationPath '/' Step
                                 | AbbreviatedRelativeLocationPath
    [11] AbbreviatedRelativeLocationPath ::=  RelativeLocationPath '//' Step


    Into this one:

    [3-11] RelativeLocationPath ::=   Step
                                    | RelativeLocationPath '/'  Step
                                    | RelativeLocationPath '//' Step
  RETURN
    1 - success
    0 - failure
*/
static int my_xpath_parse_RelativeLocationPath(MY_XPATH *xpath)
{
  if (!my_xpath_parse_Step(xpath))
    return 0;
  while (my_xpath_parse_term(xpath, MY_XPATH_LEX_SLASH))
  {
    if (my_xpath_parse_term(xpath, MY_XPATH_LEX_SLASH))
      xpath->context= new Item_nodeset_func_descendantbyname(xpath->context,
                                                             "*", 1,
                                                             xpath->pxml, 1);
    if (!my_xpath_parse_Step(xpath))
      return 0;
  }
  return 1;
}


/*
  Scan non-abbreviated or abbreviated Step

  SYNOPSYS

  [4] Step ::=   AxisSpecifier NodeTest Predicate*
               | AbbreviatedStep
  [8] Predicate ::= '[' PredicateExpr ']'

  RETURN
    1 - success
    0 - failure
*/
static int 
my_xpath_parse_AxisSpecifier_NodeTest_opt_Predicate_list(MY_XPATH *xpath)
{
  if (!my_xpath_parse_AxisSpecifier(xpath))
    return 0;
 
  if (!my_xpath_parse_NodeTest(xpath))
    return 0;

  while (my_xpath_parse_term(xpath, MY_XPATH_LEX_LB))
  {
    Item *prev_context= xpath->context;
    String *context_cache;
    context_cache= &((Item_nodeset_func*)xpath->context)->context_cache;
    xpath->context= new Item_nodeset_context_cache(context_cache, xpath->pxml);
    xpath->context_cache= context_cache;

    if(!my_xpath_parse_PredicateExpr(xpath))
      return 0;

    if (!my_xpath_parse_term(xpath, MY_XPATH_LEX_RB))
      return 0;

    xpath->item= nodeset2bool(xpath, xpath->item);

    if (xpath->item->is_bool_func())
    {
      xpath->context= new Item_nodeset_func_predicate(prev_context,
                                                      xpath->item,
                                                      xpath->pxml);
    }
    else
    {
      xpath->context= new Item_nodeset_func_elementbyindex(prev_context,
                                                           xpath->item,
                                                           xpath->pxml);
    }
  }
  return 1;
}


static int my_xpath_parse_Step(MY_XPATH *xpath)
{  
  return
    my_xpath_parse_AxisSpecifier_NodeTest_opt_Predicate_list(xpath) ||
    my_xpath_parse_AbbreviatedStep(xpath);
}


/*
  Scan Abbreviated Axis Specifier

  SYNOPSYS
  [5] AxisSpecifier ::=  AxisName '::' 
                         | AbbreviatedAxisSpecifier

  RETURN
    1 - success
    0 - failure
*/
static int my_xpath_parse_AbbreviatedAxisSpecifier(MY_XPATH *xpath)
{
  if (my_xpath_parse_term(xpath, MY_XPATH_LEX_AT))
    xpath->axis= MY_XPATH_AXIS_ATTRIBUTE;
  else
    xpath->axis= MY_XPATH_AXIS_CHILD;
  return 1;
}


/*
  Scan non-abbreviated axis specifier

  SYNOPSYS

  RETURN
    1 - success
    0 - failure
*/
static int my_xpath_parse_AxisName_colon_colon(MY_XPATH *xpath)
{
  return my_xpath_parse_AxisName(xpath) &&
         my_xpath_parse_term(xpath, MY_XPATH_LEX_COLON) &&
         my_xpath_parse_term(xpath, MY_XPATH_LEX_COLON);
}


/*
  Scan Abbreviated AxisSpecifier

  SYNOPSYS
    [13] AbbreviatedAxisSpecifier  ::=  '@'?

  RETURN
    1 - success
    0 - failure
*/
static int my_xpath_parse_AxisSpecifier(MY_XPATH *xpath)
{
  return my_xpath_parse_AxisName_colon_colon(xpath) ||
         my_xpath_parse_AbbreviatedAxisSpecifier(xpath);
}


/*
  Scan NodeType followed by parens

  SYNOPSYS

  RETURN
    1 - success
    0 - failure
*/
static int my_xpath_parse_NodeTest_lp_rp(MY_XPATH *xpath)
{
  return my_xpath_parse_term(xpath, MY_XPATH_LEX_NODETYPE) &&
         my_xpath_parse_term(xpath, MY_XPATH_LEX_LP) &&
         my_xpath_parse_term(xpath, MY_XPATH_LEX_RP);
}


/*
  Scan NodeTest

  SYNOPSYS

  [7] NodeTest ::=   NameTest
                   | NodeType '(' ')'
                   | 'processing-instruction' '(' Literal ')'
  RETURN
    1 - success
    0 - failure
*/
static int my_xpath_parse_NodeTest(MY_XPATH *xpath)
{
  return my_xpath_parse_NameTest(xpath) ||
         my_xpath_parse_NodeTest_lp_rp(xpath);
}


/*
  Scan Abbreviated Step

  SYNOPSYS

  [12] AbbreviatedStep  ::= '.'	| '..'

  RETURN
    1 - success
    0 - failure
*/
static int my_xpath_parse_AbbreviatedStep(MY_XPATH *xpath)
{
  if (!my_xpath_parse_term(xpath, MY_XPATH_LEX_DOT))
    return 0;
  if (my_xpath_parse_term(xpath, MY_XPATH_LEX_DOT))
    xpath->context= new Item_nodeset_func_parentbyname(xpath->context, "*", 1,
                                                       xpath->pxml);
  return 1;
}


/*
  Scan Primary Expression

  SYNOPSYS

  [15] PrimaryExpr ::= VariableReference	
                       | '(' Expr ')'	
                       | Literal	
                       | Number	
                       | FunctionCall
  RETURN
    1 - success
    0 - failure
*/
static int my_xpath_parse_lp_Expr_rp(MY_XPATH *xpath)
{
  return my_xpath_parse_term(xpath, MY_XPATH_LEX_LP) &&
         my_xpath_parse_Expr(xpath) &&
         my_xpath_parse_term(xpath, MY_XPATH_LEX_RP);
}
static int my_xpath_parse_PrimaryExpr_literal(MY_XPATH *xpath)
{
  if (!my_xpath_parse_term(xpath, MY_XPATH_LEX_STRING))
    return 0;
  xpath->item= new Item_string(xpath->prevtok.beg + 1,
                               xpath->prevtok.end - xpath->prevtok.beg - 2,
                               xpath->cs);
  return 1;
}
static int my_xpath_parse_PrimaryExpr(MY_XPATH *xpath)
{
  return 
      my_xpath_parse_lp_Expr_rp(xpath)          ||
      my_xpath_parse_VariableReference(xpath)   ||
      my_xpath_parse_PrimaryExpr_literal(xpath) ||
      my_xpath_parse_Number(xpath)              ||
      my_xpath_parse_FunctionCall(xpath);
}


/*
  Scan Function Call

  SYNOPSYS
    [16] FunctionCall ::= FunctionName '(' ( Argument ( ',' Argument )* )? ')'
    [17] Argument      ::= Expr

  RETURN
    1 - success
    0 - failure

*/
static int my_xpath_parse_FunctionCall(MY_XPATH *xpath)
{
  Item *args[256];
  uint nargs;

  if (!my_xpath_parse_term(xpath, MY_XPATH_LEX_FUNC))
    return 0;

  MY_XPATH_FUNC *func= xpath->func;

  if (!my_xpath_parse_term(xpath, MY_XPATH_LEX_LP))
    return 0;

  for (nargs= 0 ; nargs < func->maxargs; )
  {
    if (!my_xpath_parse_Expr(xpath))
     return 0;
    args[nargs++]= xpath->item;
    if (!my_xpath_parse_term(xpath, MY_XPATH_LEX_COMMA))
    {
      if (nargs < func->minargs)
        return 0;
      else
        break;
    }
  }
  if (!my_xpath_parse_term(xpath, MY_XPATH_LEX_RP))
    return 0;

  return ((xpath->item= func->create(xpath, args, nargs))) ? 1 : 0;
}


/*
  Scan Union Expression

  SYNOPSYS
    [18] UnionExpr ::=   PathExpr	
                       | UnionExpr '|' PathExpr

  RETURN
    1 - success
    0 - failure
*/
static int my_xpath_parse_UnionExpr(MY_XPATH *xpath)
{
  if (!my_xpath_parse_PathExpr(xpath))
    return 0;
 
  while (my_xpath_parse_term(xpath, MY_XPATH_LEX_VLINE))
  {
    Item *prev= xpath->item;
    if (prev->type() != Item::XPATH_NODESET)
      return 0;
    
    if (!my_xpath_parse_PathExpr(xpath)
        || xpath->item->type() != Item::XPATH_NODESET)
      return 0;
    xpath->item= new Item_nodeset_func_union(prev, xpath->item, xpath->pxml);
  }
  return 1;
}


/*
  Scan Path Expression

  SYNOPSYS

  [19] PathExpr ::=   LocationPath
                    | FilterExpr
                    | FilterExpr '/' RelativeLocationPath
                    | FilterExpr '//' RelativeLocationPath
  RETURN
    1 - success
    0 - failure
*/
static int
my_xpath_parse_FilterExpr_opt_slashes_RelativeLocationPath(MY_XPATH *xpath)
{
  if (!my_xpath_parse_FilterExpr(xpath))
    return 0;

  if (!my_xpath_parse_term(xpath, MY_XPATH_LEX_SLASH))
    return 1;

  my_xpath_parse_term(xpath, MY_XPATH_LEX_SLASH);
  return my_xpath_parse_RelativeLocationPath(xpath);
}
static int my_xpath_parse_PathExpr(MY_XPATH *xpath)
{
  return my_xpath_parse_LocationPath(xpath) || 
         my_xpath_parse_FilterExpr_opt_slashes_RelativeLocationPath(xpath);
}



/*
  Scan Filter Expression

  SYNOPSYS
    [20]  FilterExpr ::=   PrimaryExpr	
                         | FilterExpr Predicate

    or in other words:

    [20]  FilterExpr ::=   PrimaryExpr Predicate*

  RETURN
    1 - success
    0 - failure

*/
static int my_xpath_parse_FilterExpr(MY_XPATH *xpath)
{
  return my_xpath_parse_PrimaryExpr(xpath);
}


/*
  Scan Or Expression

  SYNOPSYS
    [21] OrExpr ::=   AndExpr
                    | OrExpr 'or' AndExpr

  RETURN
    1 - success
    0 - failure
*/
static int my_xpath_parse_OrExpr(MY_XPATH *xpath)
{
  if (!my_xpath_parse_AndExpr(xpath))
    return 0;

  while (my_xpath_parse_term(xpath, MY_XPATH_LEX_OR))
  {
    Item *prev= xpath->item;
    if (!my_xpath_parse_AndExpr(xpath))
      return 0;
    xpath->item= new Item_cond_or(nodeset2bool(xpath, prev),
                                  nodeset2bool(xpath, xpath->item));
  }
  return 1;
}


/*
  Scan And Expression

  SYNOPSYS
    [22] AndExpr ::=   EqualityExpr	
                     | AndExpr 'and' EqualityExpr

  RETURN
    1 - success
    0 - failure
*/
static int my_xpath_parse_AndExpr(MY_XPATH *xpath)
{
  if (!my_xpath_parse_EqualityExpr(xpath))
    return 0;

  while (my_xpath_parse_term(xpath, MY_XPATH_LEX_AND))
  {
    Item *prev= xpath->item;
    if (!my_xpath_parse_EqualityExpr(xpath))
      return 0;

    xpath->item= new Item_cond_and(nodeset2bool(xpath,prev), 
                                   nodeset2bool(xpath,xpath->item));
  }
  return 1;
}


/*
  Scan Equality Expression

  SYNOPSYS
    [23] EqualityExpr ::=   RelationalExpr
                          | EqualityExpr '=' RelationalExpr
                          | EqualityExpr '!=' RelationalExpr
    or in other words:

    [23] EqualityExpr ::= RelationalExpr ( EqualityOperator EqualityExpr )*

  RETURN
    1 - success
    0 - failure
*/
static int my_xpath_parse_ne(MY_XPATH *xpath)
{ 
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  MY_XPATH_LEX prevtok= xpath->prevtok;
  if (!my_xpath_parse_term(xpath, MY_XPATH_LEX_EXCL))
    return 0;
  if (!my_xpath_parse_term(xpath, MY_XPATH_LEX_EQ))
  {
    /* Unget the exclamation mark */
    xpath->lasttok= xpath->prevtok;
    xpath->prevtok= prevtok;
    return 0;
  }
  return 1;
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}
static int my_xpath_parse_EqualityOperator(MY_XPATH *xpath)
{
  if (my_xpath_parse_ne(xpath))
  {
    xpath->extra= '!';
    return 1;
  }
  if (my_xpath_parse_term(xpath, MY_XPATH_LEX_EQ))
  {
    xpath->extra= '=';
    return 1;
  }
  return 0;
}
static int my_xpath_parse_EqualityExpr(MY_XPATH *xpath)
{
  if (!my_xpath_parse_RelationalExpr(xpath))
    return 0;
  while (my_xpath_parse_EqualityOperator(xpath))
  {
    Item *prev= xpath->item;
    int oper= xpath->extra;
    if (!my_xpath_parse_RelationalExpr(xpath))
      return 0;

    if (!(xpath->item= create_comparator(xpath, oper, prev, xpath->item)))
      return 0;
  }
  return 1;
}


/*
  Scan Relational Expression

  SYNOPSYS

    [24] RelationalExpr ::=   AdditiveExpr
                            | RelationalExpr '<' AdditiveExpr
                            | RelationalExpr '>' AdditiveExpr
                            | RelationalExpr '<=' AdditiveExpr
                            | RelationalExpr '>=' AdditiveExpr
  or in other words:

    [24] RelationalExpr ::= AdditiveExpr (RelationalOperator RelationalExpr)*

  RETURN
    1 - success
    0 - failure
*/
static int my_xpath_parse_RelationalOperator(MY_XPATH *xpath)
{
  if (my_xpath_parse_term(xpath, MY_XPATH_LEX_LESS))
  {
    xpath->extra= my_xpath_parse_term(xpath, MY_XPATH_LEX_EQ) ? 
                  MY_XPATH_LEX_LE : MY_XPATH_LEX_LESS;
    return 1;
  }
  else if (my_xpath_parse_term(xpath, MY_XPATH_LEX_GREATER))
  {
    xpath->extra= my_xpath_parse_term(xpath, MY_XPATH_LEX_EQ) ?
                  MY_XPATH_LEX_GE : MY_XPATH_LEX_GREATER;
    return 1;
  }
  return 0;
}
static int my_xpath_parse_RelationalExpr(MY_XPATH *xpath)
{
  if (!my_xpath_parse_AdditiveExpr(xpath))
    return 0;
  while (my_xpath_parse_RelationalOperator(xpath))
  {
    Item *prev= xpath->item;
    int oper= xpath->extra;

    if (!my_xpath_parse_AdditiveExpr(xpath))
      return 0;

    if (!(xpath->item= create_comparator(xpath, oper, prev, xpath->item)))
      return 0;
  }
  return 1;
}


/*
  Scan Additive Expression

  SYNOPSYS

    [25] AdditiveExpr ::=   MultiplicativeExpr	
                          | AdditiveExpr '+' MultiplicativeExpr	
                          | AdditiveExpr '-' MultiplicativeExpr
  RETURN
    1 - success
    0 - failure
*/
static int my_xpath_parse_AdditiveOperator(MY_XPATH *xpath)
{
 return my_xpath_parse_term(xpath, MY_XPATH_LEX_PLUS) ||
        my_xpath_parse_term(xpath, MY_XPATH_LEX_MINUS);
}
static int my_xpath_parse_AdditiveExpr(MY_XPATH *xpath)
{
  if (!my_xpath_parse_MultiplicativeExpr(xpath))
    return 0;

  while (my_xpath_parse_AdditiveOperator(xpath))
  {
    int oper= xpath->prevtok.term;
    Item *prev= xpath->item;
    if (!my_xpath_parse_MultiplicativeExpr(xpath))
      return 0;

    if (oper == MY_XPATH_LEX_PLUS)
      xpath->item= new Item_func_plus(prev, xpath->item);
    else
      xpath->item= new Item_func_minus(prev, xpath->item);
  };
  return 1;
}


/*
  Scan Multiplicative Expression

  SYNOPSYS

    [26] MultiplicativeExpr ::=   UnaryExpr	
                                | MultiplicativeExpr MultiplyOperator UnaryExpr	
                                | MultiplicativeExpr 'div' UnaryExpr	
                                | MultiplicativeExpr 'mod' UnaryExpr
    or in other words:  
  
    [26]  MultiplicativeExpr ::= UnaryExpr (MulOper MultiplicativeExpr)*
  
  RETURN
    1 - success
    0 - failure
*/
static int my_xpath_parse_MultiplicativeOperator(MY_XPATH *xpath)
{
  return
      my_xpath_parse_term(xpath, MY_XPATH_LEX_ASTERISK) ||
      my_xpath_parse_term(xpath, MY_XPATH_LEX_DIV)      ||
      my_xpath_parse_term(xpath, MY_XPATH_LEX_MOD);
}
static int my_xpath_parse_MultiplicativeExpr(MY_XPATH *xpath)
{
  if (!my_xpath_parse_UnaryExpr(xpath))
    return 0;

  while (my_xpath_parse_MultiplicativeOperator(xpath))
  {
    int oper= xpath->prevtok.term;
    Item *prev= xpath->item;
    if (!my_xpath_parse_UnaryExpr(xpath))
      return 0;
    switch (oper)
    {
      case MY_XPATH_LEX_ASTERISK:
        xpath->item= new Item_func_mul(prev, xpath->item);
        break;
      case MY_XPATH_LEX_DIV:
        xpath->item= new Item_func_int_div(prev, xpath->item);
        break;
      case MY_XPATH_LEX_MOD:
        xpath->item= new Item_func_mod(prev, xpath->item);
        break;
    }
  }
  return 1;
}


/*
  Scan Unary Expression

  SYNOPSYS

    [27] UnaryExpr ::=   UnionExpr	
                       | '-' UnaryExpr
  RETURN
    1 - success
    0 - failure
*/
static int my_xpath_parse_UnaryExpr(MY_XPATH *xpath)
{
  if (!my_xpath_parse_term(xpath, MY_XPATH_LEX_MINUS))
    return my_xpath_parse_UnionExpr(xpath);
  if (!my_xpath_parse_UnaryExpr(xpath))
    return 0;
  xpath->item= new Item_func_neg(xpath->item);
  return 1;
}


/*
  Scan Number

  SYNOPSYS

    [30] Number ::= Digits ('.' Digits?)? | '.' Digits)

  or in other words:

    [30] Number ::= Digits
                    | Digits '.'
                    | Digits '.' Digits
                    | '.' Digits

  Note: the last rule is not supported yet,
  as it is in conflict with abbreviated step.
  1 + .123    does not work,
  1 + 0.123   does.
  Perhaps it is better to move this code into lex analizer.

  RETURN
    1 - success
    0 - failure
*/
static int my_xpath_parse_Number(MY_XPATH *xpath)
{
  const char *beg;
  if (!my_xpath_parse_term(xpath, MY_XPATH_LEX_DIGITS))
    return 0;
  beg= xpath->prevtok.beg;
  if (!my_xpath_parse_term(xpath, MY_XPATH_LEX_DOT))
  {
    xpath->item= new Item_int(xpath->prevtok.beg,
                              xpath->prevtok.end - xpath->prevtok.beg);
    return 1;
  }
  my_xpath_parse_term(xpath, MY_XPATH_LEX_DIGITS);

  xpath->item= new Item_float(beg, xpath->prevtok.end - beg);
  return 1;
}


/*
  Scan Variable reference

  SYNOPSYS

    [36] VariableReference ::= '$' QName
  RETURN
    1 - success
    0 - failure
*/
static int
my_xpath_parse_VariableReference(MY_XPATH *xpath)
{
  return my_xpath_parse_term(xpath, MY_XPATH_LEX_DOLLAR) &&
         my_xpath_parse_term(xpath, MY_XPATH_LEX_IDENT);
}


/*
  Scan Name Test

  SYNOPSYS

    [37] NameTest ::=  '*'
                      | NCName ':' '*'
                      | QName
  RETURN
    1 - success
    0 - failure
*/
static int
my_xpath_parse_NodeTest_QName(MY_XPATH *xpath)
{
  if (!my_xpath_parse_term(xpath, MY_XPATH_LEX_IDENT))
    return 0;
  DBUG_ASSERT(xpath->context);
  uint len= xpath->prevtok.end - xpath->prevtok.beg;
  xpath->context= nametestfunc(xpath, xpath->axis, xpath->context,
                               xpath->prevtok.beg, len);
  return 1;
}
static int
my_xpath_parse_NodeTest_asterisk(MY_XPATH *xpath)
{
  if (!my_xpath_parse_term(xpath, MY_XPATH_LEX_ASTERISK))
    return 0;
  DBUG_ASSERT(xpath->context);
  xpath->context= nametestfunc(xpath, xpath->axis, xpath->context, "*", 1);
  return 1;
}
static int
my_xpath_parse_NameTest(MY_XPATH *xpath)
{
  return my_xpath_parse_NodeTest_asterisk(xpath) ||
         my_xpath_parse_NodeTest_QName(xpath);
}


/*
  Scan an XPath expression

  SYNOPSYS
    Scan xpath expression.
    The expression is returned in xpath->expr. 

  RETURN
    1 - success
    0 - failure
*/
static int
my_xpath_parse(MY_XPATH *xpath, const char *str, const char *strend)
{
  my_xpath_lex_init(&xpath->query, str, strend);
  my_xpath_lex_init(&xpath->prevtok, str, strend);
  my_xpath_lex_scan(xpath, &xpath->lasttok, str, strend);

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  xpath->rootelement= new Item_nodeset_func_rootelement(xpath->pxml);

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  return
     my_xpath_parse_Expr(xpath) &&
     my_xpath_parse_term(xpath, MY_XPATH_LEX_EOF);
}


void Item_xml_str_func::fix_length_and_dec()
{
  String *xp, tmp;
  MY_XPATH xpath;
  int rc;

  nodeset_func= 0;

  if (agg_arg_charsets(collation, args, arg_count, MY_COLL_CMP_CONV))
    return;

  if (collation.collation->mbminlen > 1)
  {
    /* UCS2 is not supported */
    my_printf_error(ER_UNKNOWN_ERROR,
                    "Character set '%s' is not supported by XPATH",
                    MYF(0), collation.collation->csname);
    return;
  }

  if (!args[1]->const_item())
  {
    my_printf_error(ER_UNKNOWN_ERROR,
                    "Only constant XPATH queries are supported", MYF(0));
    return;
  }

  xp= args[1]->val_str(&tmp);
  my_xpath_init(&xpath);
  xpath.cs= collation.collation;
  xpath.debug= 0;
  xpath.pxml= &pxml;
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  pxml.set_charset(collation.collation);
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  rc= my_xpath_parse(&xpath, xp->ptr(), xp->ptr() + xp->length());

  if (!rc)
  {
    char context[32];
    uint clen= xpath.query.end - xpath.lasttok.beg;
    set_if_bigger(clen, sizeof(context) - 1);
    memcpy(context, xpath.lasttok.beg, clen);
    context[clen]= '\0';
    my_printf_error(ER_UNKNOWN_ERROR, "XPATH syntax error: '%s'", 
                    MYF(0), context);
    return;
  }

  nodeset_func= xpath.item;
  if (nodeset_func)
    nodeset_func->fix_fields(current_thd, &nodeset_func);
  max_length= MAX_BLOB_WIDTH;
}


#define MAX_LEVEL 256
typedef struct 
{
  uint level;
  String *pxml;         // parsed XML
  uint pos[MAX_LEVEL];  // Tag position stack
} MY_XML_USER_DATA;


/*
  Find the parent node

  SYNOPSYS
    Find the parent node, i.e. a tag or attrubute node on the given level.

  RETURN
    1 - success
    0 - failure
*/
static uint xml_parent_tag(MY_XML_NODE *items, uint nitems, uint level)
{
  if (!nitems)
    return 0;

  MY_XML_NODE *p, *last= &items[nitems-1];
  for (p= last; p >= items; p--)
  {
    if (p->level == level &&
        (p->type == MY_XML_NODE_TAG ||
         p->type == MY_XML_NODE_ATTR))
    {
      return p - items;
    }
  } 
  return 0;
}


/*
  Process tag beginning

  SYNOPSYS

    A call-back function executed when XML parser
    is entering a tag or an attribue.
    Appends the new node into data->pxml.
    Increments data->level.

  RETURN
    Currently only MY_XML_OK
*/
static int xml_enter(MY_XML_PARSER *st,const char *attr, uint len)
{
  MY_XML_USER_DATA *data= (MY_XML_USER_DATA*)st->user_data;
  MY_XML_NODE *nodes= (MY_XML_NODE*) data->pxml->ptr();
  uint numnodes= data->pxml->length() / sizeof(MY_XML_NODE);
  uint parent= xml_parent_tag(nodes, numnodes, data->level - 1);
  MY_XML_NODE node;

  data->pos[data->level]= numnodes;
  node.level= data->level++;
  node.type= st->current_node_type; // TAG or ATTR
  node.beg= attr;
  node.end= attr + len;
  node.parent= parent;
  data->pxml->append((const char*) &node, sizeof(MY_XML_NODE));
  return MY_XML_OK;
}


/*
  Process text node

  SYNOPSYS

    A call-back function executed when XML parser
    is entering into a tag or an attribue textual value.
    The value is appended into data->pxml.

  RETURN
    Currently only MY_XML_OK
*/
static int xml_value(MY_XML_PARSER *st,const char *attr, uint len)
{
  MY_XML_USER_DATA *data= (MY_XML_USER_DATA*)st->user_data;
  MY_XML_NODE *nodes= (MY_XML_NODE*) data->pxml->ptr();
  uint numnodes= data->pxml->length() / sizeof(MY_XML_NODE);
  uint parent= xml_parent_tag(nodes, numnodes, data->level - 1);
  MY_XML_NODE node;
  
  node.level= data->level;
  node.type= MY_XML_NODE_TEXT;
  node.beg= attr;
  node.end= attr + len;
  node.parent= parent;
  data->pxml->append((const char*) &node, sizeof(MY_XML_NODE));
  return MY_XML_OK;
}


/*
  Leave a tag or an attribute

  SYNOPSYS

    A call-back function executed when XML parser
    is leaving a tag or an attribue.
    Decrements data->level.

  RETURN
    Currently only MY_XML_OK
*/
static int xml_leave(MY_XML_PARSER *st,const char *attr, uint len)
{
  MY_XML_USER_DATA *data= (MY_XML_USER_DATA*)st->user_data;
  DBUG_ASSERT(data->level > 0);
  data->level--;

  MY_XML_NODE *nodes= (MY_XML_NODE*) data->pxml->ptr();
  nodes+= data->pos[data->level];
  nodes->tagend= st->cur;

  return MY_XML_OK;
}


/*
  Parse raw XML

  SYNOPSYS
    

  RETURN
    Currently pointer to parsed XML on success
    0 on parse error
*/
String *Item_xml_str_func::parse_xml(String *raw_xml, String *parsed_xml_buf)
{
  MY_XML_PARSER p;
  MY_XML_USER_DATA user_data;
  int rc;

  parsed_xml_buf->length(0);

  /* Prepare XML parser */
  my_xml_parser_create(&p);
  p.flags= MY_XML_FLAG_RELATIVE_NAMES | MY_XML_FLAG_SKIP_TEXT_NORMALIZATION;
  user_data.level= 0;
  user_data.pxml= parsed_xml_buf;
  my_xml_set_enter_handler(&p, xml_enter);
  my_xml_set_value_handler(&p, xml_value);
  my_xml_set_leave_handler(&p, xml_leave);
  my_xml_set_user_data(&p, (void*) &user_data);

  /* Add root node */
  p.current_node_type= MY_XML_NODE_TAG;
  xml_enter(&p, raw_xml->ptr(), 0);

  /* Execute XML parser */
  rc= my_xml_parse(&p, raw_xml->ptr(), raw_xml->length());
  my_xml_parser_free(&p);

  return rc == MY_XML_OK ? parsed_xml_buf : 0;
}


String *Item_func_xml_extractvalue::val_str(String *str)
{
  String *res;
  if (!nodeset_func ||
      !(res= args[0]->val_str(str)) || 
      !parse_xml(res, &pxml))
  {
    null_value= 1;
    return 0;
  }
  res= nodeset_func->val_str(&tmp_value);
  return res;  
}


String *Item_func_xml_update::val_str(String *str)
{
  String *res, *nodeset, *rep;

  if (!nodeset_func || 
      !(res= args[0]->val_str(str)) ||
      !(rep= args[2]->val_str(&tmp_value3)) ||
      !parse_xml(res, &pxml) ||
      !(nodeset= nodeset_func->val_nodeset(&tmp_value2)))
  {
    null_value= 1;
    return 0;
  }

  MY_XML_NODE *nodebeg= (MY_XML_NODE*) pxml.ptr();
  MY_XML_NODE *nodeend= (MY_XML_NODE*) pxml.ptr() + pxml.length();
  MY_XPATH_FLT *fltbeg= (MY_XPATH_FLT*) nodeset->ptr();
  MY_XPATH_FLT *fltend= (MY_XPATH_FLT*) (nodeset->ptr() + nodeset->length());

  /* Allow replacing of one tag only */
  if (fltend - fltbeg != 1)
  {
    /* TODO: perhaps add a warning that more than one tag selected */
    return res;
  }

  nodebeg+= fltbeg->num;

  tmp_value.length(0);
  tmp_value.set_charset(collation.collation);
  uint offs= nodebeg->type == MY_XML_NODE_TAG ? 1 : 0;
  tmp_value.append(res->ptr(), nodebeg->beg - res->ptr() - offs);
  tmp_value.append(rep->ptr(), rep->length());
  const char *end= nodebeg->tagend + offs;
  tmp_value.append(end, res->ptr() + res->length() - end);
  return &tmp_value;
}