#
# $Id: xmlelement.icn,v 1.1 2003/08/04 17:35:06 jeffery Exp $
#
# This file is in the public domain.
#
# Author: Robert Parlett (parlett@dial.pipex.com)
#

package xml

#
# This class represents an element in an XML document.  It has extra
# attributes and methods to deal with XML namespaces.
#
# For example, given the document
#
#   <?xml version="1.0" ?>
#   <top xmlns:nsid="http://an.url.com">
#     <nsid:inner nsid:attr="val"/>
#   </top>
#
# If n is the XmlElement representing the <top> element, then its
# global name is GlobalName("top") (ie the same as its local name).  The inner
# XmlElement however, has a global name of 
#
#    GlobalName("inner", "http://an.url.com"),
#
# and a single attribute with key 
#
#    GlobalName("attr", "http://an.url.com").
#
# The original parsed name and attribute table are still available
# via the methods in the superclass Element.  For example, get_name()
# for the inner XmlElement returns "nsid:inner".   
#
class XmlElement : Element(
                           whitespace_children,
                           global_name, 
                           attributes_global_name, 
                           namespace_declarations, 
                           xml_space_preserve)
   #
   # Set the global (namespace-aware) name.  The global
   # name should be a {GlobalName} instance.
   #
   # @param s a {GlobalName} instance representing the global name.
   #
   method set_global_name(s)
      global_name := s
   end

   #
   # Succeed iff the parser applied the xml:space="preserve" feature
   # when parsing this element.
   #
   method xml_space_preserved()
      return \self.xml_space_preserve
   end

   #
   # Get whitespace children.  During validation, the parser may remove insignificant
   # whitespace from the children list.  This method will always give the original list
   # including whitespace.  If no whitespace was removed, this list will be identical
   # to the children list.
   #
   method get_whitespace_children()
      return whitespace_children
   end

   #
   #
   # Return the table of namespace declarations for this element.  The table
   # will be a map of prefixes to URI's.
   #
   method get_namespace_declarations()
      return namespace_declarations
   end

   #
   # Get the global name, which will be a {GlobalName} instance.
   #
   # @return a {GlobalName} instance representing the global name.
   #
   method get_global_name()
      return global_name
   end

   #
   # Return the global name attributes map for this tag.  This will
   # be a table of {GlobalName} instances to values.
   #
   method get_attributes_global_name()
      return attributes_global_name
   end

   #
   # Return the attribute for this tag, or &null if none specified, based on
   # the given {GlobalName}.
   #
   # @param gn the {GlobalName} instance representing the global name
   #
   method get_attribute_global_name(gn)
      #
      # Unfortunately we have to iterate through because the GlobalNames
      # are stored in the map by identity.
      #
      every e := key(attributes_global_name) do {
         if e.equals(gn) then
            return attributes_global_name[e]
      }
      return 
   end

   #
   # Search for all the {Elements} with the given tag name, recursively
   # traversing the entire tree based at this node.
   #
   # @param s a {GlobalName}, being the name of the sub-elements
   #
   method search_tree_global_name(s)
      local n
      every n := generate_nodes() do
         if n.get_type() == "element" & (/s | n.get_global_name().equals(s)) then
            suspend n
   end

   #
   # Generate the elements under this element, with the given name.  If name
   # is omitted, generate all the elements.
   #
   # @param s a {GlobalName}, being the name of the sub-elements
   #
   method search_children_global_name(s)
      local n
      every n := !children do
         if not(string(n)) & n.get_type() == "element" & (/s | n.get_global_name().equals(s)) then
            suspend n
   end

   method print_structure(f, indent, flags)
      local s, x, i

      if /flags then {
         self.Element.print_structure(f, indent, flags)
         return
      }

      /f := &output
      /indent := 0
      i := repl(" ", indent * 5)
      write(f, i || "Tag : <" || self.global_name.to_string() || ">")
      s := ""
      every x := !sort(self.attributes_global_name) do {
         s ||:= x[1].to_string() || "=" || image(x[2]) || " "
      }
      write(f, i || "Attributes : " || s)
      write(f, i || "Contents :")
      every j := 1 to *children do {
         writes(i || j || ":")
         e := children[j]
         if string(e) then
            write(f, image(e))
         else {
            write(f)
            e.print_structure(f, indent + 1, flags)
         }
      }
      write(f, i, "End of tag : </", self.global_name.to_string(), ">")
   end

   initially()
      self.Element.initially()
      attributes_global_name := table()
      namespace_declarations := table()
end